ICAT Metadata#
Dataset Metadata#
An ESRF dataset is a sequence of BLISS scans.
The following ICAT metadata fields are associated to a dataset:
ICAT name |
NeXus name |
Description |
Deprecated |
NeXus type |
Unit |
|---|---|---|---|---|---|
datasetName |
title |
Name of the dataset. |
NX_CHAR |
||
scanNumber |
scanNumber |
Scan number. |
NX_CHAR |
||
scan_description |
scan_description |
Scan description. |
NX_CHAR |
||
proposal |
proposal |
Proposal name associated with the beamtime or experiment. |
NX_CHAR |
||
scanType |
dataset_type |
Type of scan: either ‘step_by_step’ or ‘continuous’. |
NX_CHAR |
||
location |
folder_path |
Filesystem path where the dataset is stored. |
NX_CHAR |
||
input_datasets |
input_datasets |
Comma-separated list of filesystem paths to datasets from which this dataset was derived. |
NX_CHAR |
||
startDate |
start_time |
Date and time when the scan or data collection started. |
NX_DATE_TIME |
||
endDate |
end_time |
Date and time when the scan or data collection ended. |
NX_DATE_TIME |
||
definition |
definition |
Techniques used to collect the dataset, provided as a space-separated list. https://esrf-ontologies.readthedocs.io |
NX_CHAR |
||
technique_pid |
technique_pid |
Identifiers (ESRFET IDs) of the techniques used for this dataset, provided as a space-separated list. https://esrf-ontologies.readthedocs.io |
NX_CHAR |
||
technique_pid_esrfet_version |
technique_pid_esrfet_version |
Version of the ESRFET ontology used for the technique PIDs metadata. https://esrf-ontologies.readthedocs.io |
NX_CHAR |
||
DOI_abstract |
doi_abstract |
Abstract or summary associated with the DOI. |
NX_CHAR |
||
DOI_title |
doi_title |
Title of the publication associated with the DOI. |
NX_CHAR |
||
DOI_users |
doi_users |
Users or authors associated with the DOI (first name, last name, and ORCID comma-separated), provided as a semicolon-separated list. |
NX_CHAR |
||
DOI_rights |
doi_rights |
License information provided as three comma-separated values: license name, license identifier, and license URL. |
NX_CHAR |
||
DOI_citationPublicationDOI |
doi_citation_publication_doi |
DOI of the publication that cites the dataset. |
NX_CHAR |
||
DOI_keywords |
doi_keywords |
Keywords related to the DOI, provided as a semicolon-separated list. |
NX_CHAR |
||
DOI_referenceURLs |
doi_refrence_urls |
URLs of external resources related to the DOI, provided as a semicolon-separated list. |
NX_CHAR |
||
Project_name |
project_name |
Name of the project. A project represents a thematic or domain-focused collection of datasets (e.g. Human Organ Atlas). |
NX_CHAR |
||
machine |
machine |
Name of the machine that collects the data. |
NX_CHAR |
||
software |
software |
Name of the software that collects the data. |
NX_CHAR |
||
group_by |
group_by |
Parameters name that will be used to represent the data acquisition as a tree, provided as a comma-separated list. Mostly for visualization purposes. |
NX_CHAR |
||
complete |
complete |
May be set to true when all data files and parameters have been added to the data set. The precise meaning is facility-dependent. |
NX_BOOLEAN |
||
investigationId |
investigationId |
Unique identifier of the investigation (experiment session) in ICAT. It is used during ingestion to associate the correct session to the dataset. |
NX_INT |
||
Sample_name |
sample.name |
Name of the sample. |
NX_CHAR |
||
Sample_description |
sample.description |
Description of the sample. |
NX_CHAR |
||
Sample_distance |
sample.distance |
Translation of the sample along the primary beam direction. |
NX_CHAR |
||
Sample_support |
sample.support |
Name of the support used to collect the sample. It can be a chip, plate, jet, etc. |
NX_CHAR |
||
Sample_notes |
sample.notes.notes |
Note or comment for any relevant information about the sample. |
NX_CHAR |
||
SamplePositioners_name |
sample.positioners.name |
Name of the positioner, provided as a space-separated list. |
NX_CHAR |
||
SamplePositioners_value |
sample.positioners.value |
Current position or angle of the positioner, provided as a space-separated list. |
NX_CHAR |
||
SampleProtein_acronym |
sample.protein.acronym |
Acronym of the protein. |
NX_CHAR |
||
SampleProtein_name |
sample.protein.name |
Full name of the protein. |
NX_CHAR |
||
SampleChanger_position |
sample.changer.position |
Sample changer position. |
NX_CHAR |
||
SampleChanger_name |
sample.changer.name |
Name (or ideally identifier) for a batch (series of data collections). |
NX_CHAR |
||
SamplePatient_institute |
sample.patient.institute |
Institute where the patient originates from. |
NX_CHAR |
||
SamplePatient_number |
sample.patient.number |
Patient identifier or number assigned by the institute. |
NX_INT |
||
SamplePatient_age |
sample.patient.age |
Age of the patient. |
NX_NUMBER |
a |
|
SamplePatient_sex |
sample.patient.sex |
Sex of the patient. |
NX_CHAR |
||
SamplePatient_weight |
sample.patient.weight |
Weight of the patient. |
NX_NUMBER |
kg |
|
SamplePatient_size |
sample.patient.size |
Height of the patient. |
NX_NUMBER |
cm |
|
SamplePatient_info |
sample.patient.info |
Additional information about the patient (e.g., health conditions, notes). |
NX_CHAR |
||
SamplePatient_organ_name |
sample.patient.organ_name |
Name of the organ. |
NX_CHAR |
||
SamplePatient_organ_description |
sample.patient.organ_description |
Description of the organ or tissue sampled. |
NX_CHAR |
||
SampleEnvironment_name |
sample.environment.name |
Apparatus identification code/model number; e.g. OC100 011. |
NX_CHAR |
||
SampleEnvironment_type |
sample.environment.type |
Type of apparatus. This could be the SE codes in scheduling database; e.g. OC/100. |
NX_CHAR |
||
SampleEnvironment_description |
sample.environment.description |
Description of the apparatus; e.g. 100mm bore orange cryostat with Roots pump. |
NX_CHAR |
||
SampleEnvironmentSensors_name |
sample.environment.sensors.name |
Name of the sensor, provided as a space-separated list. |
NX_CHAR |
||
SampleEnvironmentSensors_value |
sample.environment.sensors.value |
Value reported by the sensor, provided as a space-separated list. |
NX_CHAR |
||
SampleTrackingShipment_id |
sample.tracking.shipment.id |
Identifier of the shipment. |
NX_CHAR |
||
SampleTrackingShipment_name |
sample.tracking.shipment.name |
Name of the shipment. |
NX_CHAR |
||
SampleTrackingParcel_id |
sample.tracking.parcel.id |
Identifier of the parcel. |
NX_CHAR |
||
SampleTrackingParcel_name |
sample.tracking.parcel.name |
Name of the parcel where the sample has been shipped. |
NX_CHAR |
||
SampleTrackingParcel_storage_condition |
sample.tracking.parcel.storage_condition |
Storage conditions of the parcel. Example: -80 degrees. |
NX_NUMBER |
°C |
|
SampleTrackingContainer_type |
sample.tracking.container.type |
Type of container. Example: unipuck, spinepuck, etc… |
NX_CHAR |
||
SampleTrackingContainer_capacity |
sample.tracking.container.capacity |
Total capacity of the container. |
NX_CHAR |
||
SampleTrackingContainer_position |
sample.tracking.container.position |
Position of the sample within the container. |
NX_CHAR |
||
SampleTrackingContainer_id |
sample.tracking.container.id |
Identifier of the container. |
NX_CHAR |
||
SampleTrackingContainer_name |
sample.tracking.container.name |
Name of the container where the sample is. Example: puck_name. |
NX_CHAR |
||
SampleLocalisation_name |
sample.localisation.name |
Name of the location where the sample was collected. |
NX_CHAR |
||
SampleLocalisation_country |
sample.localisation.country |
Country where the sample was collected. |
NX_CHAR |
||
SampleLocalisation_continental_region |
sample.localisation.continental_region |
Continent or continental region of the collection site. |
NX_CHAR |
||
SamplePaleoGeologicalTime_formation |
sample.paleo.geological_time.formation |
Geological formation where the sample was collected. |
NX_CHAR |
||
SamplePaleoGeologicalTime_era |
sample.paleo.geological_time.era |
Geological era of the sample (e.g. Cenozoic). |
NX_CHAR |
||
SamplePaleoGeologicalTime_period |
sample.paleo.geological_time.period |
Geological period of the sample (e.g. Quaternary). |
NX_CHAR |
||
SamplePaleoGeologicalTime_epoch |
sample.paleo.geological_time.epoch |
Geological epoch of the sample (e.g. Present). |
NX_CHAR |
||
SamplePaleoClassification_species |
sample.paleo.classification.species |
Species name of the sample. |
NX_CHAR |
||
SamplePaleoClassification_material_type |
sample.paleo.classification.material_type |
Type of material. |
NX_CHAR |
||
SamplePaleoClassification_clade1 |
sample.paleo.classification.clade1 |
Highest-level taxonomic clade. |
NX_CHAR |
||
SamplePaleoClassification_clade2 |
sample.paleo.classification.clade2 |
Next taxonomic level. |
NX_CHAR |
||
SamplePaleoClassification_clade3 |
sample.paleo.classification.clade3 |
Next taxonomic level. |
NX_CHAR |
||
SamplePaleoClassification_clade4 |
sample.paleo.classification.clade4 |
Next taxonomic level. |
NX_CHAR |
||
SamplePaleoClassification_clade5 |
sample.paleo.classification.clade5 |
Next taxonomic level. |
NX_CHAR |
||
SamplePaleoClassification_clade6 |
sample.paleo.classification.clade6 |
Next taxonomic level. |
NX_CHAR |
||
Sample_situation |
sample.situation |
Atmosphere conditions and associated components for the sample; details are stored in the sample_component member. |
NX_CHAR |
||
Sample_ub_matrix |
sample.ub_matrix |
UB matrix of single crystal sample using Busing-Levy convention: W. R. Busing and H. A. Levy (1967). Acta Cryst. 22, 457-464. This is the multiplication of the orientation_matrix, given above, with the BB matrix which can be derived from the lattice constants. |
NX_CHAR |
||
Sample_temperature_env |
sample.temperature_env |
Additional sample temperature environment information. |
NX_CHAR |
||
Sample_chemical_formula |
sample.chemical_formula |
Chemical formula of the sample. |
NX_CHAR |
||
Sample_subject |
sample.subject |
Discipline or field of study related to the sample. |
NX_CHAR |
||
Sample_repository_institution |
sample.repository_institution |
Institution or repository where the sample is stored. |
NX_CHAR |
||
Sample_collection_number |
sample.collection_number |
Unique collection number assigned to the sample by the repository or institution. |
NX_CHAR |
||
Sample_collection_year |
sample.collection_year |
Year when the sample was collected or manufactured. |
NX_INT |
||
Sample_collection_period |
sample.collection_period |
Period when the sample was collected or manufactured. |
NX_CHAR |
||
Sample_creator |
sample.creator |
Person or organisation responsible for the creation or origin of the sample (e.g. maker, artist, producer, etc.). |
NX_CHAR |
||
Sample_creator_role |
sample.creator_role |
Role of the creator in the production of the sample (e.g. luthier, painter, sculptor, manufacturer, etc.). |
NX_CHAR |
||
Sample_categories |
sample.categories |
Hierarchical categories from general to specific (e.g. [‘art-history’, ‘music instruments’, ‘string instruments’, ‘violins’]). |
NX_CHAR |
||
Fresnel_zone_plate_outer_diameter |
fresnel_zone_plate.outer_diameter |
Outer diameter of the Fresnel zone plate. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-outer-diameter-field |
NX_NUMBER |
µm |
|
Fresnel_zone_plate_outermost_zone_width |
fresnel_zone_plate.outermost_zone_width |
Width of the outermost zone in the Fresnel zone plate. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-outermost-zone-width-field |
NX_NUMBER |
nm |
|
Fresnel_zone_plate_central_stop_diameter |
fresnel_zone_plate.central_stop_diameter |
Diameter of the central stop that blocks the zeroth-order (undiffracted) beam in the Fresnel zone plate. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-central-stop-diameter-field |
NX_NUMBER |
µm |
|
Fresnel_zone_plate_fabrication |
fresnel_zone_plate.fabrication |
Manufacturing method of the zone plate. Allowed values are: etched, plated, zone-doubled, or other. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-fabrication-field |
NX_CHAR |
||
Fresnel_zone_plate_zone_height |
fresnel_zone_plate.zone_height |
Height or thickness of the zones in the Fresnel zone plate. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-zone-height-field |
NX_NUMBER |
µm |
|
Fresnel_zone_plate_zone_material |
fresnel_zone_plate.zone_material |
Material of the zones that diffract the beam. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-zone-material-field |
NX_CHAR |
||
Fresnel_zone_plate_zone_support_material |
fresnel_zone_plate.zone_support_material |
Material present between the zones. This is usually only present for the zone doubled fabrication process. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-zone-support-material-field |
NX_CHAR |
||
Fresnel_zone_plate_central_stop_material |
fresnel_zone_plate.central_stop_material |
Material used for the central stop. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-central-stop-material-field |
NX_CHAR |
||
Fresnel_zone_plate_central_stop_thickness |
fresnel_zone_plate.central_stop_thickness |
Thickness of the central stop. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-central-stop-thickness-field |
NX_NUMBER |
µm |
|
Fresnel_zone_plate_support_membrane_material |
fresnel_zone_plate.support_membrane_material |
Material of the supporting membrane holding the zone plate. See https://manual.nexusformat.org/classes/base_classes/NXfresnel_zone_plate.html#nxfresnel-zone-plate-support-membrane-material-field |
NX_CHAR |
||
Fresnel_zone_plate_distance |
fresnel_zone_plate.distance |
Distance of the Fresnel zone plate along the beam path relative to the sample position. |
NX_NUMBER |
mm |
|
Fresnel_zone_plate_component_index |
fresnel_zone_plate.component_index |
Position of the component along the beam path. |
NX_FLOAT |
||
Aperture_description |
aperture.description |
Describes which child group contains a path leading to a NXdata group. It is recommended (as of NIAC2014) to use this attribute to help define the path to the default dataset to be plotted. See https://www.nexusformat.org/2014_How_to_find_default_data.html for a summary of the discussion. See https://manual.nexusformat.org/classes/base_classes/NXaperture.html#nxaperture-description-field |
NX_CHAR |
||
Aperture_material |
aperture.material |
Absorbing material of the aperture. See https://manual.nexusformat.org/classes/base_classes/NXaperture.html#nxaperture-material-field |
NX_CHAR |
||
ApertureGeometry_vertical |
aperture.geometry.vertical |
Vertical coordinate or reference point of the aperture. Only present when this represents an additional reference point rather than the position of a physical component. |
NX_CHAR |
||
ApertureGeometry_horizontal |
aperture.geometry.horizontal |
Horizontal coordinate or reference point of the aperture. |
NX_CHAR |
||
ApertureGeometry_transformation |
aperture.geometry.transformation |
Transformation applied to the aperture position or orientation. |
NX_CHAR |
||
ApertureGeometry_distance |
aperture.geometry.distance |
Distance of the aperture along the beam path relative to the sample position. |
NX_CHAR |
||
ApertureGeometry_component_index |
aperture.geometry.component_index |
Position of the component along the beam path. The sample is at 0, components upstream have a negative component_index, and components downstream a have positive component_index. |
NX_CHAR |
||
Mirror_type |
mirror.type |
Type of mirror. Possible values: ‘single’ (mirror with a single material as a reflecting surface), ‘multi’ (mirror with stacked, multiple layers as a reflecting surface). See https://manual.nexusformat.org/classes/base_classes/NXmirror.html#nxmirror-type-field |
NX_CHAR |
||
Mirror_description |
mirror.description |
Text description of this mirror. See https://manual.nexusformat.org/classes/base_classes/NXmirror.html#nxmirror-description-field |
NX_CHAR |
||
Mirror_interior_atmosphere |
mirror.interior_atmosphere |
Atmosphere inside the mirror housing. Possible values: ‘vacuum’, ‘helium’, ‘argon’. See https://manual.nexusformat.org/classes/base_classes/NXmirror.html#nxmirror-interior-atmosphere-field |
NX_CHAR |
||
Mirror_substrate_material |
mirror.substrate_material |
Material of the mirror substrate. See https://manual.nexusformat.org/classes/base_classes/NXmirror.html#nxmirror-substrate-material-field |
NX_CHAR |
||
Mirror_coating_material |
mirror.coating_material |
Material of the mirror coating used to enhance reflectivity. See https://manual.nexusformat.org/classes/base_classes/NXmirror.html#nxmirror-coating-material-field |
NX_CHAR |
||
MirrorGeometry_vertical |
mirror.geometry.vertical |
Vertical coordinate or label. Present only if this is an additional reference point for components, rather than the location of a physical mirror. |
NX_CHAR |
||
MirrorGeometry_horizontal |
mirror.geometry.horizontal |
Horizontal coordinate or reference point of the mirror. |
NX_CHAR |
||
MirrorGeometry_transformation |
mirror.geometry.transformation |
Transformation applied to the mirror’s position or orientation. |
NX_CHAR |
||
MirrorGeometry_distance |
mirror.geometry.distance |
Distance of the mirror along the beam path relative to the sample position. |
NX_NUMBER |
m |
|
MirrorGeometry_component_index |
mirror.geometry.component_index |
Index of the component along the beam path. The sample is at 0; upstream components have negative indices, downstream components have positive indices. |
NX_INT |
||
beamlineID |
instrument.name |
Identifier of the beamline. |
NX_CHAR |
||
InstrumentVariables_name |
instrument.variables.name |
Name of the instrument variable or parameter, provided as a space-separated list. |
NX_CHAR |
||
InstrumentVariables_value |
instrument.variables.value |
Value of the instrument variable or parameter, provided as a space-separated list. |
NX_CHAR |
||
InstrumentPositioners_name |
instrument.positioners.name |
Name or identifier of the instrument positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentPositioners_value |
instrument.positioners.value |
Current position or setpoint of the instrument component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentBeam_distance |
instrument.beam.distance |
Distance from sample (recommended via NXtransformations). See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-distance-field |
NX_NUMBER |
m |
|
InstrumentBeam_incident_energy |
instrument.beam.incident_energy |
Energy carried by each particle entering the beamline component, provided as a space-separated list. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-energy-field |
NX_NUMBER |
keV |
|
InstrumentBeam_final_energy |
instrument.beam.final_energy |
Energy carried by each particle leaving the beamline component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-final-energy-field |
NX_NUMBER |
keV |
|
InstrumentBeam_energy_transfer |
instrument.beam.energy_transfer |
Change in particle energy caused by the beamline component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-energy-transfer-field |
NX_NUMBER |
keV |
|
InstrumentBeam_incident_wavelength |
instrument.beam.incident_wavelength |
Wavelength on entering the beamline component, provided as a space-separated list. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-wavelength-field |
NX_NUMBER |
Å |
|
InstrumentBeam_incident_wavelength_weights |
instrument.beam.incident_wavelength_weights |
Weights for polychromatic beam wavelengths, provided as a space-separated list. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-wavelength-weights-field |
NX_FLOAT |
||
InstrumentBeam_incident_wavelength_spread |
instrument.beam.incident_wavelength_spread |
Wavelength spread FWHM for each incident wavelength, provided as a space-separated list. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-wavelength-spread-field |
NX_NUMBER |
Å |
|
InstrumentBeam_final_wavelength |
instrument.beam.final_wavelength |
Wavelength on leaving the beamline component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-final-wavelength-field |
NX_NUMBER |
Å |
|
InstrumentBeam_final_wavelength_spread |
instrument.beam.final_wavelength_spread |
Wavelength spread FWHM of beam leaving this component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-final-wavelength-spread-field |
NX_NUMBER |
Å |
|
InstrumentBeam_incident_beam_divergence |
instrument.beam.incident_beam_divergence |
Beam crossfire in degrees parallel to the laboratory X axis. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-beam-divergence-field |
NX_NUMBER |
deg |
|
InstrumentBeam_horizontal_incident_beam_divergence |
instrument.beam.horizontal_incident_beam_divergence |
Horizontal beam crossfire in degrees parallel to the laboratory X axis. |
NX_NUMBER |
deg |
|
InstrumentBeam_vertical_incident_beam_divergence |
instrument.beam.vertical_incident_beam_divergence |
Vertical beam crossfire in degrees parallel to the laboratory Y axis. |
NX_NUMBER |
deg |
|
InstrumentBeam_final_beam_divergence |
instrument.beam.final_beam_divergence |
Divergence FWHM of beam leaving this component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-final-beam-divergence-field |
NX_NUMBER |
deg |
|
InstrumentBeam_extent |
instrument.beam.extent |
Size of the beam entering this component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-extent-field |
NX_NUMBER |
m |
|
InstrumentBeam_flux |
instrument.beam.flux |
Flux incident on beam plane area. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-flux-field |
NX_NUMBER |
photons/s |
|
InstrumentBeam_incident_polarization |
instrument.beam.incident_polarization |
Polarization vector on entering beamline component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-polarization-field |
NX_FLOAT |
||
InstrumentBeam_final_polarization |
instrument.beam.final_polarization |
Polarization vector on leaving beamline component. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-final-polarization-field |
NX_FLOAT |
||
InstrumentBeam_incident_polarization_stokes |
instrument.beam.incident_polarization_stokes |
Polarization vector on entering beamline component using Stokes notation. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-incident-polarization-stokes-field |
NX_FLOAT |
||
InstrumentBeam_final_polarization_stokes |
instrument.beam.final_polarization_stokes |
Polarization vector on leaving beamline component using Stokes notation. See https://manual.nexusformat.org/classes/base_classes/NXbeam.html#nxbeam-final-polarization-stokes-field |
NX_FLOAT |
||
InstrumentMonochromator_name |
instrument.monochromator.name |
Name or identifier of the monochromator. |
NX_CHAR |
||
InstrumentMonochromator_energy |
instrument.monochromator.energy |
Photon energy of the radiation selected by the monochromator. |
NX_CHAR |
||
InstrumentMonochromator_wavelength |
instrument.monochromator.wavelength |
Wavelength of the radiation selected by the monochromator. |
NX_CHAR |
||
InstrumentMonochromatorCrystal_usage |
instrument.monochromator.crystal.usage |
How the crystal is used in the monochromator. Typical values: ‘Bragg’ for reflection geometry, ‘Laue’ for transmission geometry. |
NX_CHAR |
||
InstrumentMonochromatorCrystal_d_spacing |
instrument.monochromator.crystal.d_spacing |
Interplanar spacing between the crystal lattice planes. |
NX_CHAR |
||
InstrumentMonochromatorCrystal_type |
instrument.monochromator.crystal.type |
Type of crystal. |
NX_CHAR |
||
InstrumentMonochromatorCrystal_reflection |
instrument.monochromator.crystal.reflection |
Miller indices of the crystal reflection used for monochromatization. |
NX_CHAR |
||
InstrumentSource_mode |
instrument.source.mode |
Operational mode of the source. |
NX_CHAR |
||
InstrumentSource_current |
instrument.source.current |
Beam current or intensity of the source. |
NX_CHAR |
||
InstrumentSource_distance |
instrument.source.distance |
Effective distance from the sample, as seen by radiation emitted from the sample. This value should be negative to signify that the source is upstream of the sample. |
NX_CHAR |
||
InstrumentSource_name |
instrument.source.name |
Name of the source. |
NX_CHAR |
||
InstrumentSource_type |
instrument.source.type |
Type of radiation source. Pick one value from the enumerated list and spell it exactly: Spallation Neutron Source, Pulsed Reactor Neutron Source, Reactor Neutron Source, Synchrotron X-ray Source, Pulsed Muon Source, Rotating Anode X-ray, Fixed Tube X-ray, UV Laser, Free-Electron Laser, Optical Laser, Ion Source, UV Plasma Source. |
NX_CHAR |
||
InstrumentSource_probe |
instrument.source.probe |
Type of radiation probe used in the experiment. |
NX_CHAR |
||
InstrumentSource_emittance_x |
instrument.source.emittance_x |
Source emittance (nm-rad) in the X (horizontal) direction. |
NX_CHAR |
||
InstrumentSource_emittance_y |
instrument.source.emittance_y |
Source emittance (nm-rad) in the Y (horizontal) direction. |
NX_CHAR |
||
InstrumentLaser01_name |
instrument.laser01.name |
Name of the laser source. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-name-field |
NX_CHAR |
||
InstrumentLaser01_type |
instrument.laser01.type |
Type of laser source. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-type-field |
NX_CHAR |
||
InstrumentLaser01_probe |
instrument.laser01.probe |
Type of radiation emitted by the laser. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-probe-field |
NX_CHAR |
||
InstrumentLaser01_energy |
instrument.laser01.energy |
Energy emitted in a single pulse. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-energy-field |
NX_NUMBER |
J |
|
InstrumentLaser01_wavelength |
instrument.laser01.wavelength |
Wavelength emitted in a single pulse. |
NX_NUMBER |
m |
|
InstrumentLaser01_repetition_rate |
instrument.laser01.repetition_rate |
Pulse repetition frequency. |
NX_NUMBER |
Hz |
|
InstrumentLaser01_pulse_width |
instrument.laser01.pulse_width |
Time between the start and end of a single pulse. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-pulse-width-field |
NX_NUMBER |
s |
|
InstrumentLaser01_delay |
instrument.laser01.delay |
The time of the start of the laser pulse with respect to the start of the measurement (T=0). |
NX_NUMBER |
s |
|
InstrumentLaser02_name |
instrument.laser02.name |
Name of the laser source. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-name-field |
NX_CHAR |
||
InstrumentLaser02_type |
instrument.laser02.type |
Type of laser source. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-type-field |
NX_CHAR |
||
InstrumentLaser02_probe |
instrument.laser02.probe |
Type of radiation emitted by the laser. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-probe-field |
NX_CHAR |
||
InstrumentLaser02_energy |
instrument.laser02.energy |
Energy emitted in a single pulse. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-energy-field |
NX_NUMBER |
J |
|
InstrumentLaser02_wavelength |
instrument.laser02.wavelength |
Wavelength emitted in a single pulse. |
NX_NUMBER |
m |
|
InstrumentLaser02_repetition_rate |
instrument.laser02.repetition_rate |
Pulse repetition frequency. |
NX_NUMBER |
Hz |
|
InstrumentLaser02_pulse_width |
instrument.laser02.pulse_width |
Time between the start and end of a single pulse. See https://manual.nexusformat.org/classes/base_classes/NXsource.html#nxsource-pulse-width-field |
NX_NUMBER |
s |
|
InstrumentLaser02_delay |
instrument.laser02.delay |
The time of the start of the laser pulse with respect to the start of the measurement (T=0). |
NX_NUMBER |
s |
|
InstrumentSlitPrimary_name |
instrument.primary_slit.name |
Name or identifier of the primary slit. |
NX_CHAR |
||
InstrumentSlitPrimary_vertical_gap |
instrument.primary_slit.vertical_gap |
Distance between the upper and lower blades (vertical opening), provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_vertical_offset |
instrument.primary_slit.vertical_offset |
Motor position for vertical offset of the slit, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_horizontal_gap |
instrument.primary_slit.horizontal_gap |
Distance between the left and right blades (horizontal opening), provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_horizontal_offset |
instrument.primary_slit.horizontal_offset |
Motor position for horizontal offset of the slit, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_blade_up |
instrument.primary_slit.blade_up |
Position of the upper blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_blade_down |
instrument.primary_slit.blade_down |
Position of the lower blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_blade_front |
instrument.primary_slit.blade_front |
Position of the front blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitPrimary_blade_back |
instrument.primary_slit.blade_back |
Position of the back blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_name |
instrument.secondary_slit.name |
Name or identifier of the secondary slit. |
NX_CHAR |
||
InstrumentSlitSecondary_vertical_gap |
instrument.secondary_slit.vertical_gap |
Distance between the upper and lower blades (vertical opening), provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_vertical_offset |
instrument.secondary_slit.vertical_offset |
Motor position for vertical offset of the slit, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_horizontal_gap |
instrument.secondary_slit.horizontal_gap |
Distance between the left and right blades (horizontal opening), provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_horizontal_offset |
instrument.secondary_slit.horizontal_offset |
Motor position for horizontal offset of the slit, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_blade_up |
instrument.secondary_slit.blade_up |
Position of the upper blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_blade_down |
instrument.secondary_slit.blade_down |
Position of the lower blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_blade_front |
instrument.secondary_slit.blade_front |
Position of the front blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlitSecondary_blade_back |
instrument.secondary_slit.blade_back |
Position of the back blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_name |
instrument.slits.name |
Name or identifier of the slit, provided as a space-separated list. |
NX_CHAR |
||
InstrumentSlits_vertical_gap |
instrument.slits.vertical_gap |
Distance between the upper and lower blades (vertical opening), provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_vertical_offset |
instrument.slits.vertical_offset |
Motor position for vertical offset of the slit, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_horizontal_gap |
instrument.slits.horizontal_gap |
Distance between the left and right blades (horizontal opening), provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_horizontal_offset |
instrument.slits.horizontal_offset |
Motor position for horizontal offset of the slit, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_blade_up |
instrument.slits.blade_up |
Position of the upper blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_blade_down |
instrument.slits.blade_down |
Position of the lower blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_blade_front |
instrument.slits.blade_front |
Position of the front blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentSlits_blade_back |
instrument.slits.blade_back |
Position of the back blade, provided as a space-separated list. |
NX_FLOAT |
||
InstrumentXraylens01_lens_geometry |
instrument.xraylens01.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens01_focus_type |
instrument.xraylens01.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens01_lens_thickness |
instrument.xraylens01.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens01_lens_length |
instrument.xraylens01.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens01_curvature |
instrument.xraylens01.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens01_aperture |
instrument.xraylens01.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens01_number_of_lenses |
instrument.xraylens01.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens01_lens_material |
instrument.xraylens01.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens02_lens_geometry |
instrument.xraylens02.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens02_focus_type |
instrument.xraylens02.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens02_lens_thickness |
instrument.xraylens02.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens02_lens_length |
instrument.xraylens02.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens02_curvature |
instrument.xraylens02.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens02_aperture |
instrument.xraylens02.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens02_number_of_lenses |
instrument.xraylens02.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens02_lens_material |
instrument.xraylens02.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens03_lens_geometry |
instrument.xraylens03.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens03_focus_type |
instrument.xraylens03.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens03_lens_thickness |
instrument.xraylens03.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens03_lens_length |
instrument.xraylens03.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens03_curvature |
instrument.xraylens03.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens03_aperture |
instrument.xraylens03.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens03_number_of_lenses |
instrument.xraylens03.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens03_lens_material |
instrument.xraylens03.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens04_lens_geometry |
instrument.xraylens04.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens04_focus_type |
instrument.xraylens04.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens04_lens_thickness |
instrument.xraylens04.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens04_lens_length |
instrument.xraylens04.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens04_curvature |
instrument.xraylens04.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens04_aperture |
instrument.xraylens04.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens04_number_of_lenses |
instrument.xraylens04.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens04_lens_material |
instrument.xraylens04.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens05_lens_geometry |
instrument.xraylens05.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens05_focus_type |
instrument.xraylens05.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens05_lens_thickness |
instrument.xraylens05.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens05_lens_length |
instrument.xraylens05.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens05_curvature |
instrument.xraylens05.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens05_aperture |
instrument.xraylens05.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens05_number_of_lenses |
instrument.xraylens05.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens05_lens_material |
instrument.xraylens05.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens06_lens_geometry |
instrument.xraylens06.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens06_focus_type |
instrument.xraylens06.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens06_lens_thickness |
instrument.xraylens06.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens06_lens_length |
instrument.xraylens06.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens06_curvature |
instrument.xraylens06.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens06_aperture |
instrument.xraylens06.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens06_number_of_lenses |
instrument.xraylens06.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens06_lens_material |
instrument.xraylens06.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens07_lens_geometry |
instrument.xraylens07.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens07_focus_type |
instrument.xraylens07.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens07_lens_thickness |
instrument.xraylens07.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens07_lens_length |
instrument.xraylens07.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens07_curvature |
instrument.xraylens07.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens07_aperture |
instrument.xraylens07.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens07_number_of_lenses |
instrument.xraylens07.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens07_lens_material |
instrument.xraylens07.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens08_lens_geometry |
instrument.xraylens08.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens08_focus_type |
instrument.xraylens08.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens08_lens_thickness |
instrument.xraylens08.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens08_lens_length |
instrument.xraylens08.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens08_curvature |
instrument.xraylens08.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens08_aperture |
instrument.xraylens08.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens08_number_of_lenses |
instrument.xraylens08.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens08_lens_material |
instrument.xraylens08.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens09_lens_geometry |
instrument.xraylens09.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens09_focus_type |
instrument.xraylens09.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens09_lens_thickness |
instrument.xraylens09.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens09_lens_length |
instrument.xraylens09.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens09_curvature |
instrument.xraylens09.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens09_aperture |
instrument.xraylens09.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens09_number_of_lenses |
instrument.xraylens09.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens09_lens_material |
instrument.xraylens09.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentXraylens10_lens_geometry |
instrument.xraylens10.lens_geometry |
Geometry of the lens. Any of these values: paraboloid, spherical, elliptical, hyperbolical. |
NX_CHAR |
||
InstrumentXraylens10_focus_type |
instrument.xraylens10.focus_type |
The type of focus of the lens. Any of these values: line, point. |
NX_CHAR |
||
InstrumentXraylens10_lens_thickness |
instrument.xraylens10.lens_thickness |
Thickness of the lens |
NX_CHAR |
||
InstrumentXraylens10_lens_length |
instrument.xraylens10.lens_length |
Length of the lens. |
NX_CHAR |
||
InstrumentXraylens10_curvature |
instrument.xraylens10.curvature |
Radius of the curvature as measured in the middle of the lens. |
NX_CHAR |
||
InstrumentXraylens10_aperture |
instrument.xraylens10.aperture |
Diameter of the lens. |
NX_CHAR |
||
InstrumentXraylens10_number_of_lenses |
instrument.xraylens10.number_of_lenses |
Number of lenses that make up the compound lens. |
NX_INT |
||
InstrumentXraylens10_lens_material |
instrument.xraylens10.lens_material |
Material used to make the lens. |
NX_CHAR |
||
InstrumentAttenuator01_type |
instrument.attenuator01.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator01_thickness |
instrument.attenuator01.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator01_status |
instrument.attenuator01.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator01_distance |
instrument.attenuator01.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator01Positioners_name |
instrument.attenuator01.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator01Positioners_value |
instrument.attenuator01.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator01_description |
instrument.attenuator01.description |
Free-text description of the attenuator, its purpose, or any special characteristics. |
NX_CHAR |
||
InstrumentAttenuator02_type |
instrument.attenuator02.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator02_thickness |
instrument.attenuator02.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator02_status |
instrument.attenuator02.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator02_distance |
instrument.attenuator02.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator02Positioners_name |
instrument.attenuator02.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator02Positioners_value |
instrument.attenuator02.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator03_type |
instrument.attenuator03.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator03_thickness |
instrument.attenuator03.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator03_status |
instrument.attenuator03.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator03_distance |
instrument.attenuator03.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator03Positioners_name |
instrument.attenuator03.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator03Positioners_value |
instrument.attenuator03.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator04_type |
instrument.attenuator04.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator04_thickness |
instrument.attenuator04.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator04_status |
instrument.attenuator04.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator04_distance |
instrument.attenuator04.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator04Positioners_name |
instrument.attenuator04.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator04Positioners_value |
instrument.attenuator04.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator05_type |
instrument.attenuator05.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator05_thickness |
instrument.attenuator05.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator05_status |
instrument.attenuator05.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator05_distance |
instrument.attenuator05.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator05Positioners_name |
instrument.attenuator05.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator05Positioners_value |
instrument.attenuator05.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator06_type |
instrument.attenuator06.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator06_thickness |
instrument.attenuator06.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator06_status |
instrument.attenuator06.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator06_distance |
instrument.attenuator06.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator06Positioners_name |
instrument.attenuator06.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator06Positioners_value |
instrument.attenuator06.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator07_type |
instrument.attenuator07.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator07_thickness |
instrument.attenuator07.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator07_status |
instrument.attenuator07.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator07_distance |
instrument.attenuator07.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator07Positioners_name |
instrument.attenuator07.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator07Positioners_value |
instrument.attenuator07.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator08_type |
instrument.attenuator08.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator08_thickness |
instrument.attenuator08.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator08_status |
instrument.attenuator08.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator08_distance |
instrument.attenuator08.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator08Positioners_name |
instrument.attenuator08.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator08Positioners_value |
instrument.attenuator08.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator09_type |
instrument.attenuator09.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator09_thickness |
instrument.attenuator09.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator09_status |
instrument.attenuator09.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator09_distance |
instrument.attenuator09.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator09Positioners_name |
instrument.attenuator09.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator09Positioners_value |
instrument.attenuator09.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator10_type |
instrument.attenuator10.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator10_thickness |
instrument.attenuator10.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator10_status |
instrument.attenuator10.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator10_distance |
instrument.attenuator10.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator10Positioners_name |
instrument.attenuator10.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator10Positioners_value |
instrument.attenuator10.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator11_type |
instrument.attenuator11.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator11_thickness |
instrument.attenuator11.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator11_status |
instrument.attenuator11.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator11_distance |
instrument.attenuator11.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator11Positioners_name |
instrument.attenuator11.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator11Positioners_value |
instrument.attenuator11.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator12_type |
instrument.attenuator12.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator12_thickness |
instrument.attenuator12.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator12_status |
instrument.attenuator12.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator12_distance |
instrument.attenuator12.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator12Positioners_name |
instrument.attenuator12.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator12Positioners_value |
instrument.attenuator12.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator13_type |
instrument.attenuator13.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator13_thickness |
instrument.attenuator13.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator13_status |
instrument.attenuator13.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator13_distance |
instrument.attenuator13.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator13Positioners_name |
instrument.attenuator13.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator13Positioners_value |
instrument.attenuator13.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator14_type |
instrument.attenuator14.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator14_thickness |
instrument.attenuator14.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator14_status |
instrument.attenuator14.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator14_distance |
instrument.attenuator14.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator14Positioners_name |
instrument.attenuator14.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator14Positioners_value |
instrument.attenuator14.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator15_type |
instrument.attenuator15.type |
Type of attenuator or filter. |
NX_CHAR |
||
InstrumentAttenuator15_thickness |
instrument.attenuator15.thickness |
Thickness of the attenuator material. |
NX_CHAR |
||
InstrumentAttenuator15_status |
instrument.attenuator15.status |
Discrete attenuator position label or status (e.g., ‘In1’, ‘In4’). |
NX_CHAR |
||
InstrumentAttenuator15_distance |
instrument.attenuator15.distance |
Distance from the sample along the beam path. |
NX_CHAR |
||
InstrumentAttenuator15Positioners_name |
instrument.attenuator15.positioners.name |
Name or identifier of the attenuator positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentAttenuator15Positioners_value |
instrument.attenuator15.positioners.value |
Current position of the attenuator component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentInsertionDevice_gap_name |
instrument.insertion_device.gap.name |
Name or identifier of the insertion device gap, provided as a space-separated list. |
NX_CHAR |
||
InstrumentInsertionDevice_gap_value |
instrument.insertion_device.gap.value |
Current value or setpoint of the insertion device gap, provided as a space-separated list. |
NX_CHAR |
||
InstrumentInsertionDevice_taper_name |
instrument.insertion_device.taper.name |
Name or identifier of the insertion device taper, provided as a space-separated list. |
NX_CHAR |
||
InstrumentInsertionDevice_taper_value |
instrument.insertion_device.taper.value |
Current taper value of the insertion device, provided as a space-separated list. |
NX_CHAR |
||
InstrumentOpticsPositioners_name |
instrument.optics.positioners.name |
Name or identifier of the optical component positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentOpticsPositioners_value |
instrument.optics.positioners.value |
Current position or setpoint of the optical component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentEnvironmentSensors_name |
instrument.environment.sensors.name |
Name or type of the environmental sensor, provided as a space-separated list. |
NX_CHAR |
||
InstrumentEnvironmentSensors_value |
instrument.environment.sensors.value |
Measured value recorded by the sensor, provided as a space-separated list. |
NX_CHAR |
||
InstrumentCryostat01_value |
instrument.cryostat01.value |
Cryostat setpoint temperature. See https://manual.nexusformat.org/classes/base_classes/NXenvironment.html#nxenvironment-value-field |
NX_NUMBER |
K |
|
InstrumentDetector01_name |
instrument.detector01.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector01_type |
instrument.detector01.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector01_manufacturer |
instrument.detector01.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector01_model |
instrument.detector01.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector01_preset_time |
instrument.detector01.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector01_elapsed_live_time |
instrument.detector01.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector01_elapsed_real_time |
instrument.detector01.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector01_calibration |
instrument.detector01.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector01_description |
instrument.detector01.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector01_local_name |
instrument.detector01.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector01_x_pixel_size |
instrument.detector01.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector01_y_pixel_size |
instrument.detector01.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector01_calibration_date |
instrument.detector01.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector01_layout |
instrument.detector01.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector01_beam_center_x |
instrument.detector01.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector01_beam_center_y |
instrument.detector01.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector01_flat_field_applied |
instrument.detector01.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector01_pixel_mask |
instrument.detector01.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector01_pixel_mask_applied |
instrument.detector01.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector01_countrate_correction_applied |
instrument.detector01.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector01_saturation_value |
instrument.detector01.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector01_threshold_energy |
instrument.detector01.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector01_sensor_thickness |
instrument.detector01.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector01_sensor_material |
instrument.detector01.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector01_bit_depth_readout |
instrument.detector01.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector01_distance |
instrument.detector01.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector01_frame_time |
instrument.detector01.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector01Positioners_name |
instrument.detector01.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector01Positioners_value |
instrument.detector01.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector01Rois_name |
instrument.detector01.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector01Rois_value |
instrument.detector01.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector01_acquisition_mode |
instrument.detector01.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector02_name |
instrument.detector02.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector02_type |
instrument.detector02.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector02_manufacturer |
instrument.detector02.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector02_model |
instrument.detector02.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector02_preset_time |
instrument.detector02.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector02_elapsed_live_time |
instrument.detector02.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector02_elapsed_real_time |
instrument.detector02.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector02_calibration |
instrument.detector02.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector02_description |
instrument.detector02.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector02_local_name |
instrument.detector02.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector02_x_pixel_size |
instrument.detector02.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector02_y_pixel_size |
instrument.detector02.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector02_calibration_date |
instrument.detector02.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector02_layout |
instrument.detector02.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector02_beam_center_x |
instrument.detector02.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector02_beam_center_y |
instrument.detector02.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector02_flat_field_applied |
instrument.detector02.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector02_pixel_mask |
instrument.detector02.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector02_pixel_mask_applied |
instrument.detector02.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector02_countrate_correction_applied |
instrument.detector02.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector02_saturation_value |
instrument.detector02.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector02_threshold_energy |
instrument.detector02.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector02_sensor_thickness |
instrument.detector02.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector02_sensor_material |
instrument.detector02.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector02_bit_depth_readout |
instrument.detector02.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector02_distance |
instrument.detector02.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector02_frame_time |
instrument.detector02.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector02Positioners_name |
instrument.detector02.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector02Positioners_value |
instrument.detector02.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector02Rois_name |
instrument.detector02.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector02Rois_value |
instrument.detector02.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector02_acquisition_mode |
instrument.detector02.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector03_name |
instrument.detector03.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector03_type |
instrument.detector03.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector03_manufacturer |
instrument.detector03.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector03_model |
instrument.detector03.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector03_preset_time |
instrument.detector03.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector03_elapsed_live_time |
instrument.detector03.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector03_elapsed_real_time |
instrument.detector03.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector03_calibration |
instrument.detector03.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector03_description |
instrument.detector03.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector03_local_name |
instrument.detector03.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector03_x_pixel_size |
instrument.detector03.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector03_y_pixel_size |
instrument.detector03.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector03_calibration_date |
instrument.detector03.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector03_layout |
instrument.detector03.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector03_beam_center_x |
instrument.detector03.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector03_beam_center_y |
instrument.detector03.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector03_flat_field_applied |
instrument.detector03.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector03_pixel_mask |
instrument.detector03.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector03_pixel_mask_applied |
instrument.detector03.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector03_countrate_correction_applied |
instrument.detector03.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector03_saturation_value |
instrument.detector03.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector03_threshold_energy |
instrument.detector03.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector03_sensor_thickness |
instrument.detector03.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector03_sensor_material |
instrument.detector03.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector03_bit_depth_readout |
instrument.detector03.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector03_distance |
instrument.detector03.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector03_frame_time |
instrument.detector03.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector03Positioners_name |
instrument.detector03.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector03Positioners_value |
instrument.detector03.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector03Rois_name |
instrument.detector03.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector03Rois_value |
instrument.detector03.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector03_acquisition_mode |
instrument.detector03.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector04_name |
instrument.detector04.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector04_type |
instrument.detector04.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector04_manufacturer |
instrument.detector04.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector04_model |
instrument.detector04.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector04_preset_time |
instrument.detector04.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector04_elapsed_live_time |
instrument.detector04.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector04_elapsed_real_time |
instrument.detector04.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector04_calibration |
instrument.detector04.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector04_description |
instrument.detector04.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector04_local_name |
instrument.detector04.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector04_x_pixel_size |
instrument.detector04.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector04_y_pixel_size |
instrument.detector04.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector04_calibration_date |
instrument.detector04.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector04_layout |
instrument.detector04.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector04_beam_center_x |
instrument.detector04.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector04_beam_center_y |
instrument.detector04.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector04_flat_field_applied |
instrument.detector04.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector04_pixel_mask |
instrument.detector04.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector04_pixel_mask_applied |
instrument.detector04.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector04_countrate_correction_applied |
instrument.detector04.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector04_saturation_value |
instrument.detector04.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector04_threshold_energy |
instrument.detector04.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector04_sensor_thickness |
instrument.detector04.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector04_sensor_material |
instrument.detector04.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector04_bit_depth_readout |
instrument.detector04.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector04_distance |
instrument.detector04.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector04_frame_time |
instrument.detector04.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector04Positioners_name |
instrument.detector04.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector04Positioners_value |
instrument.detector04.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector04Rois_name |
instrument.detector04.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector04Rois_value |
instrument.detector04.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector04_acquisition_mode |
instrument.detector04.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector05_name |
instrument.detector05.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector05_type |
instrument.detector05.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector05_manufacturer |
instrument.detector05.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector05_model |
instrument.detector05.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector05_preset_time |
instrument.detector05.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector05_elapsed_live_time |
instrument.detector05.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector05_elapsed_real_time |
instrument.detector05.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector05_calibration |
instrument.detector05.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector05_description |
instrument.detector05.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector05_local_name |
instrument.detector05.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector05_x_pixel_size |
instrument.detector05.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector05_y_pixel_size |
instrument.detector05.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector05_calibration_date |
instrument.detector05.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector05_layout |
instrument.detector05.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector05_beam_center_x |
instrument.detector05.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector05_beam_center_y |
instrument.detector05.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector05_flat_field_applied |
instrument.detector05.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector05_pixel_mask |
instrument.detector05.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector05_pixel_mask_applied |
instrument.detector05.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector05_countrate_correction_applied |
instrument.detector05.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector05_saturation_value |
instrument.detector05.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector05_threshold_energy |
instrument.detector05.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector05_sensor_thickness |
instrument.detector05.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector05_sensor_material |
instrument.detector05.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector05_bit_depth_readout |
instrument.detector05.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector05_distance |
instrument.detector05.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector05_frame_time |
instrument.detector05.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector05Positioners_name |
instrument.detector05.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector05Positioners_value |
instrument.detector05.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector05Rois_name |
instrument.detector05.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector05Rois_value |
instrument.detector05.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector05_acquisition_mode |
instrument.detector05.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector06_name |
instrument.detector06.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector06_type |
instrument.detector06.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector06_manufacturer |
instrument.detector06.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector06_model |
instrument.detector06.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector06_preset_time |
instrument.detector06.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector06_elapsed_live_time |
instrument.detector06.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector06_elapsed_real_time |
instrument.detector06.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector06_calibration |
instrument.detector06.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector06_description |
instrument.detector06.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector06_local_name |
instrument.detector06.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector06_x_pixel_size |
instrument.detector06.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector06_y_pixel_size |
instrument.detector06.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector06_calibration_date |
instrument.detector06.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector06_layout |
instrument.detector06.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector06_beam_center_x |
instrument.detector06.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector06_beam_center_y |
instrument.detector06.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector06_flat_field_applied |
instrument.detector06.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector06_pixel_mask |
instrument.detector06.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector06_pixel_mask_applied |
instrument.detector06.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector06_countrate_correction_applied |
instrument.detector06.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector06_saturation_value |
instrument.detector06.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector06_threshold_energy |
instrument.detector06.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector06_sensor_thickness |
instrument.detector06.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector06_sensor_material |
instrument.detector06.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector06_bit_depth_readout |
instrument.detector06.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector06_distance |
instrument.detector06.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector06_frame_time |
instrument.detector06.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector06Positioners_name |
instrument.detector06.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector06Positioners_value |
instrument.detector06.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector06Rois_name |
instrument.detector06.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector06Rois_value |
instrument.detector06.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector06_acquisition_mode |
instrument.detector06.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector07_name |
instrument.detector07.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector07_type |
instrument.detector07.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector07_manufacturer |
instrument.detector07.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector07_model |
instrument.detector07.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector07_preset_time |
instrument.detector07.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector07_elapsed_live_time |
instrument.detector07.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector07_elapsed_real_time |
instrument.detector07.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector07_calibration |
instrument.detector07.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector07_description |
instrument.detector07.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector07_local_name |
instrument.detector07.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector07_x_pixel_size |
instrument.detector07.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector07_y_pixel_size |
instrument.detector07.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector07_calibration_date |
instrument.detector07.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector07_layout |
instrument.detector07.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector07_beam_center_x |
instrument.detector07.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector07_beam_center_y |
instrument.detector07.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector07_flat_field_applied |
instrument.detector07.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector07_pixel_mask |
instrument.detector07.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector07_pixel_mask_applied |
instrument.detector07.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector07_countrate_correction_applied |
instrument.detector07.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector07_saturation_value |
instrument.detector07.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector07_threshold_energy |
instrument.detector07.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector07_sensor_thickness |
instrument.detector07.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector07_sensor_material |
instrument.detector07.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector07_bit_depth_readout |
instrument.detector07.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector07_distance |
instrument.detector07.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector07_frame_time |
instrument.detector07.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector07Positioners_name |
instrument.detector07.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector07Positioners_value |
instrument.detector07.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector07Rois_name |
instrument.detector07.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector07Rois_value |
instrument.detector07.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector07_acquisition_mode |
instrument.detector07.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector08_name |
instrument.detector08.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector08_type |
instrument.detector08.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector08_manufacturer |
instrument.detector08.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector08_model |
instrument.detector08.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector08_preset_time |
instrument.detector08.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector08_elapsed_live_time |
instrument.detector08.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector08_elapsed_real_time |
instrument.detector08.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector08_calibration |
instrument.detector08.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector08_description |
instrument.detector08.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector08_local_name |
instrument.detector08.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector08_x_pixel_size |
instrument.detector08.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector08_y_pixel_size |
instrument.detector08.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector08_calibration_date |
instrument.detector08.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector08_layout |
instrument.detector08.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector08_beam_center_x |
instrument.detector08.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector08_beam_center_y |
instrument.detector08.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector08_flat_field_applied |
instrument.detector08.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector08_pixel_mask |
instrument.detector08.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector08_pixel_mask_applied |
instrument.detector08.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector08_countrate_correction_applied |
instrument.detector08.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector08_saturation_value |
instrument.detector08.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector08_threshold_energy |
instrument.detector08.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector08_sensor_thickness |
instrument.detector08.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector08_sensor_material |
instrument.detector08.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector08_bit_depth_readout |
instrument.detector08.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector08_distance |
instrument.detector08.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector08_frame_time |
instrument.detector08.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector08Positioners_name |
instrument.detector08.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector08Positioners_value |
instrument.detector08.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector08Rois_name |
instrument.detector08.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector08Rois_value |
instrument.detector08.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector08_acquisition_mode |
instrument.detector08.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector09_name |
instrument.detector09.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector09_type |
instrument.detector09.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector09_manufacturer |
instrument.detector09.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector09_model |
instrument.detector09.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector09_preset_time |
instrument.detector09.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector09_elapsed_live_time |
instrument.detector09.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector09_elapsed_real_time |
instrument.detector09.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector09_calibration |
instrument.detector09.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector09_description |
instrument.detector09.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector09_local_name |
instrument.detector09.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector09_x_pixel_size |
instrument.detector09.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector09_y_pixel_size |
instrument.detector09.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector09_calibration_date |
instrument.detector09.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector09_layout |
instrument.detector09.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector09_beam_center_x |
instrument.detector09.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector09_beam_center_y |
instrument.detector09.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector09_flat_field_applied |
instrument.detector09.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector09_pixel_mask |
instrument.detector09.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector09_pixel_mask_applied |
instrument.detector09.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector09_countrate_correction_applied |
instrument.detector09.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector09_saturation_value |
instrument.detector09.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector09_threshold_energy |
instrument.detector09.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector09_sensor_thickness |
instrument.detector09.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector09_sensor_material |
instrument.detector09.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector09_bit_depth_readout |
instrument.detector09.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector09_distance |
instrument.detector09.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector09_frame_time |
instrument.detector09.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector09Positioners_name |
instrument.detector09.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector09Positioners_value |
instrument.detector09.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector09Rois_name |
instrument.detector09.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector09Rois_value |
instrument.detector09.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector09_acquisition_mode |
instrument.detector09.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
InstrumentDetector10_name |
instrument.detector10.name |
Name of the detector. |
NX_CHAR |
||
InstrumentDetector10_type |
instrument.detector10.type |
Type of detector, e.g., He3 gas cylinder, He3 PSD, scintillator, fission chamber, proportional counter, ion chamber, CCD, pixel, image plate, CMOS, etc. |
NX_CHAR |
||
InstrumentDetector10_manufacturer |
instrument.detector10.manufacturer |
Name of the manufacturer of the detector. Example: Dectris. |
NX_CHAR |
||
InstrumentDetector10_model |
instrument.detector10.model |
Model of the detector. Example: Pilatus3_6M. |
NX_CHAR |
||
InstrumentDetector10_preset_time |
instrument.detector10.preset_time |
Desired measurement time. |
NX_FLOAT |
||
InstrumentDetector10_elapsed_live_time |
instrument.detector10.live_time |
Time the detector was actively measuring (elapsed_time minus dead_time). |
NX_FLOAT |
||
InstrumentDetector10_elapsed_real_time |
instrument.detector10.elapsed_time |
Elapsed time between the start and stop of the measurement. |
NX_FLOAT |
||
InstrumentDetector10_calibration |
instrument.detector10.calibration |
For MCA detectors, coefficients a, b, c used to compute a scale based on channel number as a + b * x + c * x * x. |
NX_CHAR |
||
InstrumentDetector10_description |
instrument.detector10.description |
General information about the detector, e.g., name, manufacturer, model, etc. |
NX_CHAR |
||
InstrumentDetector10_local_name |
instrument.detector10.local_name |
Local name for the detector. |
NX_CHAR |
||
InstrumentDetector10_x_pixel_size |
instrument.detector10.x_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector10_y_pixel_size |
instrument.detector10.y_pixel_size |
Size of each detector pixel. If scalar, all pixels have the same size. |
NX_CHAR |
||
InstrumentDetector10_calibration_date |
instrument.detector10.calibration_date |
Date when the detector was last calibrated. |
NX_CHAR |
||
InstrumentDetector10_layout |
instrument.detector10.layout |
Detector layout. Possible values are: point, linear, or area. |
NX_CHAR |
||
InstrumentDetector10_beam_center_x |
instrument.detector10.beam_center_x |
X position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector10_beam_center_y |
instrument.detector10.beam_center_y |
Y position where the direct beam would hit the detector. Can be outside of the actual detector; units may be physical length or pixels. |
NX_CHAR |
||
InstrumentDetector10_flat_field_applied |
instrument.detector10.flatfield_applied |
True if the flat-field correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector10_pixel_mask |
instrument.detector10.pixel_mask |
32-bit pixel mask for the detector. |
NX_CHAR |
||
InstrumentDetector10_pixel_mask_applied |
instrument.detector10.pixel_mask_applied |
True if the pixel mask correction has been applied in the electronics, false otherwise. |
NX_CHAR |
||
InstrumentDetector10_countrate_correction_applied |
instrument.detector10.countrate_correction_applied |
Count-rate correction applied to account for detector limitations at high count rates. |
NX_CHAR |
||
InstrumentDetector10_saturation_value |
instrument.detector10.saturation_value |
Value at which the detector saturates. Data above this value, common in CCD detectors, are considered invalid. |
NX_CHAR |
||
InstrumentDetector10_threshold_energy |
instrument.detector10.threshold_energy |
Energy setting for single-photon counting detectors, defining the optimal energy range. |
NX_CHAR |
||
InstrumentDetector10_sensor_thickness |
instrument.detector10.sensor_thickness |
Thickness of the detector’s sensing material or conversion layer. |
NX_CHAR |
||
InstrumentDetector10_sensor_material |
instrument.detector10.sensor_material |
Material that converts radiation for detection, e.g., scintillator, if the detector does not sense radiation directly. |
NX_CHAR |
||
InstrumentDetector10_bit_depth_readout |
instrument.detector10.bit_depth_readout |
Number of bits read per pixel by the electronics. For CCDs and single-photon counting detectors, this can be 4, 8, 12, 14, or 16 bits. |
NX_CHAR |
||
InstrumentDetector10_distance |
instrument.detector10.distance |
Distance from the previous component in the instrument, typically the sample. For irregular detectors, specify the distance for each detector pixel. |
NX_CHAR |
||
InstrumentDetector10_frame_time |
instrument.detector10.frame_time |
Time per frame, equal to exposure time plus readout time. |
NX_CHAR |
||
InstrumentDetector10Positioners_name |
instrument.detector10.positioners.name |
Name or identifier of the detector positioner, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector10Positioners_value |
instrument.detector10.positioners.value |
Current position of the detector component, provided as a space-separated list. |
NX_CHAR |
||
InstrumentDetector10Rois_name |
instrument.detector10.rois.name |
Name or identifier of the region of interest (ROI) on the detector. |
NX_CHAR |
||
InstrumentDetector10Rois_value |
instrument.detector10.rois.value |
Parameters defining the ROI, provided as a space-separated list. Format: R1P1,R1P2 R2P1,R2P2 … RnP1,RnP2. |
NX_INT |
||
InstrumentDetector10_acquisition_mode |
instrument.detector10.acquisition_mode |
Acquisition mode of the detector. Possible values are: gated, triggered, summed, event, histogrammed, or decimated. |
NX_CHAR |
||
Notes_note_00 |
notes.note_00 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_01 |
notes.note_01 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_02 |
notes.note_02 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_03 |
notes.note_03 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_04 |
notes.note_04 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_05 |
notes.note_05 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_06 |
notes.note_06 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_07 |
notes.note_07 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_08 |
notes.note_08 |
Note or comment for any relevant information. |
NX_CHAR |
||
Notes_note_09 |
notes.note_09 |
Note or comment for any relevant information. |
NX_CHAR |
||
Process_program |
process.program |
Name of the software or program used to perform this process. |
NX_CHAR |
||
Process_sequence_index |
process.sequence_index |
Priority index used by the ingester; metadata (existing or new) are applied only if the index is strictly higher than existing. |
NX_CHAR |
||
Process_version |
process.version |
Version of the program or process used. |
NX_CHAR |
||
Process_note |
process.note |
Note or comment about the process. |
NX_CHAR |
||
Process_triggering |
process.triggering |
Specifies how the process was launched. Possible values are MANUAL or AUTOMATIC. |
NX_CHAR |
||
Workflow_name |
workflow.name |
Name of the workflow. |
NX_CHAR |
||
Workflow_id |
workflow.id |
Unique identifier of the workflow. |
NX_CHAR |
||
Workflow_type |
workflow.type |
Type or category of the workflow. |
NX_CHAR |
||
Workflow_status |
workflow.status |
Final status of the workflow. |
NX_CHAR |
||
Workflow_note |
workflow.note |
Note or comment from a workflow to provide feedback for users. |
NX_CHAR |
||
ExternalReferences_neuroglancer |
external_references.neuroglancer |
Path to the Neuroglancer JSON file describing the dataset for visualization. |
NX_CHAR |
||
ExternalReferencesPublication_doi |
external_references.publication.doi |
DOI of the related publication. |
NX_CHAR |
||
ExternalReferencesPublication_endnote |
external_references.publication.endnote |
Citation or bibliographic reference related to the data collector. |
NX_CHAR |
||
ExternalReferencesDatacollector_endnote |
external_references.datacollector.endnote |
Contributors who collected or processed the data, provided as a comma-separated list. |
NX_CHAR |
||
BCDI_beamSizeVertical |
BCDI.beamSizeVertical |
Vertical beam size on the sample in microns. |
NX_NUMBER |
µm |
|
BCDI_beamSizeHorizontal |
BCDI.beamSizeHorizontal |
Horizontal beam size on the sample in microns. |
NX_NUMBER |
µm |
|
EM_protein_acronym |
EM.protein_acronym |
Short acronym or identifier of the protein associated with the sample. |
NX_CHAR |
||
EM_voltage |
EM.voltage |
Acceleration voltage of the electron beam. |
NX_NUMBER |
kV |
|
EM_magnification |
EM.magnification |
Nominal microscope magnification used during data acquisition. |
NX_INT |
||
EM_images_count |
EM.images_count |
Number of frames contained in each recorded movie. |
NX_INT |
||
EM_position_x |
EM.position_x |
X position of the sample on the microscope stage. |
NX_NUMBER |
mm |
|
EM_position_y |
EM.position_y |
Y position of the sample on the microscope stage. |
NX_NUMBER |
mm |
|
EM_dose_initial |
EM.dose_initial |
Initial electron dose applied before or at the start of image acquisition. |
NX_CHAR |
||
EM_dose_per_frame |
EM.dose_per_frame |
Electron dose applied per frame during movie acquisition. |
NX_NUMBER |
1/Ų |
|
EM_spherical_aberration |
EM.spherical_aberration |
Spherical aberration coefficient (Cs) of the objective lens. |
NX_NUMBER |
mm |
|
EM_amplitude_contrast |
EM.amplitude_contrast |
Amplitude contrast used for CTF estimation, expressed as a percentage. |
NX_NUMBER |
% |
|
EM_sampling_rate |
EM.sampling_rate |
Physical pixel size at the specimen level, expressed in Ångström per pixel. |
NX_NUMBER |
Å |
|
EM_tilt_angle |
EM.tilt_angle |
Specimen tilt angle relative to the electron beam direction. |
NX_NUMBER |
deg |
|
EM_grid_name |
EM.grid_name |
Identifier or name of the cryo-EM grid used for sample preparation. |
NX_CHAR |
||
EM_grid_square_name |
EM.grid_square_name |
Identifier of the grid square from which data were collected. |
NX_CHAR |
||
EM_total_movie_number |
EM.total_movie_number |
Total number of movies acquired for this dataset. |
NX_INT |
||
EM_microscope_model |
EM.microscope_model |
Model of the transmission electron microscope used for data collection. |
NX_CHAR |
||
EM_camera_model |
EM.camera_model |
Model of the detector or camera used for image acquisition. |
NX_CHAR |
||
EM_energy_filter_model |
EM.energy_filter_model |
Model of the energy filter used during data acquisition. |
NX_CHAR |
||
EM_exposure_time |
EM.exposure_time |
Total exposure time per movie. |
NX_NUMBER |
s |
|
EM_total_dose |
EM.total_dose |
Total accumulated electron dose applied during acquisition. |
NX_NUMBER |
1/Ų |
|
EM_energy_filter_on |
EM.energy_filter_on |
Indicates whether an energy filter was used during data acquisition. |
NX_BOOLEAN |
||
EM_energy_filter_slit_width |
EM.energy_filter_slit_width |
Width of the energy filter slit. |
NX_NUMBER |
mm |
|
EM_dose |
EM.dose |
Electron dose applied during acquisition. |
NX_NUMBER |
1/Ų |
|
EM_objective_aperture |
EM.objective_aperture |
Diameter of the objective aperture used during imaging. |
NX_NUMBER |
µm |
|
EMMotionCorrection_total_mrc_number |
EM.motion_correction.total_mrc_number |
Total number of movies or micrographs processed during motion correction. |
NX_INT |
||
EMMotionCorrection_total_motion |
EM.motion_correction.total_motion |
Total accumulated specimen motion over the entire movie, expressed in pixels. |
NX_FLOAT |
pixel |
|
EMMotionCorrection_average_motion |
EM.motion_correction.average_motion |
Average specimen motion per frame, expressed in pixels. |
NX_FLOAT |
pixel |
|
EMMotionCorrection_max_motion |
EM.motion_correction.max_motion |
Maximum observed specimen motion between any two consecutive frames, expressed in pixels. |
NX_FLOAT |
pixel |
|
EMMotionCorrection_frame_dose |
EM.motion_correction.frame_dose |
Electron dose applied to a single frame. |
NX_NUMBER |
1/Ų |
|
EMMotionCorrection_frame_range |
EM.motion_correction.frame_range |
Frames range used for rest of the workflow. |
NX_CHAR |
||
EMMotionCorrection_total_dose |
EM.motion_correction.total_dose |
Total accumulated electron dose applied during acquisition. |
NX_NUMBER |
1/Ų |
|
EMCTF_total_ctf_number |
EM.ctf.total_ctf_number |
Total number of micrographs or movies for which CTF estimation was performed. |
NX_INT |
||
EMCTF_resolution_limit |
EM.ctf.resolution_limit |
Estimated highest spatial resolution (Å) at which the CTF fit is considered reliable. |
NX_NUMBER |
Å |
|
EMCTF_correlation |
EM.ctf.correlation |
Correlation or confidence metric reported by the CTF estimation program indicating quality of the CTF fit. |
NX_FLOAT |
||
EMCTF_defocus_u |
EM.ctf.defocus_u |
Defocus value along the first principal axis (U) of astigmatism, expressed in Ångström. |
NX_NUMBER |
Å |
|
EMCTF_defocus_v |
EM.ctf.defocus_v |
Defocus value along the second principal axis (V) of astigmatism, expressed in Ångström. |
NX_NUMBER |
Å |
|
EMCTF_avg_defocus |
EM.ctf.avg_defocus |
Average defocus value computed from defocus U and V, expressed in Ångström. |
NX_NUMBER |
Å |
|
EMCTF_defocus_range |
EM.ctf.defocus_range |
Difference between defocus U and defocus V (astigmatism magnitude), expressed in Ångström. |
NX_NUMBER |
Å |
|
EMCTF_sample_tilt_azimuth |
EM.ctf.sample_tilt_azimuth |
Azimuthal angle (in degrees) describing the in-plane direction of the sample tilt or astigmatism axis. |
NX_NUMBER |
deg |
|
EMCTF_estimated_b_factor |
EM.ctf.estimated_b_factor |
Estimated B-factor (envelope decay parameter) describing attenuation of high-resolution signal in the CTF. |
NX_CHAR |
||
EMCTF_ctf_fit_limit |
EM.ctf.ctf_fit_limit |
Resolution limit (Å) up to which the CTF model was fitted to the experimental data. |
NX_NUMBER |
Å |
|
EMCTF_angle |
EM.ctf.angle |
Magnitude of apparent astigmatism attributed to sample tilt, expressed as a defocus difference in Ångström. |
NX_NUMBER |
deg |
|
FLUO_pixelSize |
FLUO.pixelSize |
Size of one pixel or step in the first and second scan dimension. |
NX_NUMBER |
µm |
|
FLUO_dwellTime |
FLUO.dwellTime |
Time period during which the beam remains at one position. |
NX_NUMBER |
s |
|
FLUO_scanDim1 |
FLUO.scanDim_1 |
Number of pixels in the first scan dimension. |
NX_FLOAT |
||
FLUO_scanDim2 |
FLUO.scanDim_2 |
Number of pixels in the second scan dimension. |
NX_FLOAT |
||
FLUO_scanRange1 |
FLUO.scanRange_1 |
Physical range of the first scan dimension. |
NX_NUMBER |
µm |
|
FLUO_scanRange2 |
FLUO.scanRange_2 |
Physical range of the second scan dimension. |
NX_NUMBER |
µm |
|
FLUO_scanAxis1 |
FLUO.scanAxis_1 |
Motor name of the first scan axis. |
NX_CHAR |
||
FLUO_scanAxis2 |
FLUO.scanAxis_2 |
Motor name of the second scan axis. |
NX_CHAR |
||
FLUO_i0 |
FLUO.i0 |
Incident intensity before the sample. |
NX_FLOAT |
||
FLUO_it |
FLUO.it |
Transmitted intensity after the sample. |
NX_FLOAT |
||
Source_current_start |
FLUO.measurement.current_start |
Storage ring current at the start of the measurement. |
NX_NUMBER |
mA |
|
InstrumentSource_current_end |
FLUO.measurement.current_end |
Storage ring current at the end of the measurement. |
NX_NUMBER |
mA |
|
TOMO_i0_start |
FLUO.measurement.i0_start |
Incident flux at the start of the measurement. |
NX_NUMBER |
photons/s |
|
TOMO_it_start |
FLUO.measurement.it_start |
Transmitted flux through the sample at the start of the measurement. |
NX_NUMBER |
photons/s |
|
TOMO_i0_end |
FLUO.measurement.i0_end |
Incident flux at the end of the measurement. |
NX_NUMBER |
photons/s |
|
TOMO_it_end |
FLUO.measurement.it_end |
Transmitted flux through the sample at the end of the measurement. |
NX_NUMBER |
photons/s |
|
HOLO_N |
HOLO.n |
Number of planes for holography measurement. |
NX_INT |
||
HOLO_pixel_size |
HOLO.pixel_size |
Pixel size at the sample plane in nanometers. |
NX_NUMBER |
nm |
|
HOLO_sample_detector_distances |
HOLO.sample_detector_distances |
Sample/detector distances for all planes used. |
NX_NUMBER |
mm |
|
HOLO_source_sample_distances |
HOLO.source_sample_distances |
Source/sample distances for all planes used. |
NX_NUMBER |
mm |
|
HOLO_im01_num_end |
HOLO.im01NumEnd |
Index of last sample image in plane 1. |
HOLO.im01NumEnd (HOLO_im01_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_im01_num_start |
HOLO.im01NumStart |
Index of first sample image in plane 1. |
HOLO.im01NumStart (HOLO_im01_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_im02_num_end |
HOLO.im02NumEnd |
Index of last sample image in plane 2. |
HOLO.im02NumEnd (HOLO_im02_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_im02_num_start |
HOLO.im02NumStart |
Index of first sample image in plane 2. |
HOLO.im02NumStart (HOLO_im02_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_im03_num_end |
HOLO.im03NumEnd |
Index of last sample image in plane 3. |
HOLO.im03NumEnd (HOLO_im03_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_im03_num_start |
HOLO.im03NumStart |
Index of first sample image in plane 3. |
HOLO.im03NumStart (HOLO_im03_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_im04_num_end |
HOLO.im04NumEnd |
Index of last sample image in plane 4. |
HOLO.im04NumEnd (HOLO_im04_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_im04_num_start |
HOLO.im04NumStart |
Index of first sample image in plane 4. |
HOLO.im04NumStart (HOLO_im04_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_ref01_num_end |
HOLO.ref01NumEnd |
Index of last reference image in plane 1. |
HOLO.ref01NumEnd (HOLO_ref01_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_ref02_num_end |
HOLO.ref02NumEnd |
Index of last reference image in plane 2. |
HOLO.ref02NumEnd (HOLO_ref02_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_ref02_num_start |
HOLO.ref02NumStart |
Index of first reference image in plane 2. |
HOLO.ref02NumStart (HOLO_ref02_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_ref03_num_end |
HOLO.ref03NumEnd |
Index of last reference image in plane 3. |
HOLO.ref03NumEnd (HOLO_ref03_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_ref03_num_start |
HOLO.ref03NumStart |
Index of first reference image in plane 3. |
HOLO.ref03NumStart (HOLO_ref03_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_ref04_num_end |
HOLO.ref04NumEnd |
Index of last reference image in plane 4. |
HOLO.ref04NumEnd (HOLO_ref04_num_end) is deprecated. |
NX_FLOAT |
|
HOLO_ref04_num_start |
HOLO.ref04NumStart |
Index of first reference image in plane 4. |
HOLO.ref04NumStart (HOLO_ref04_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_dark_num_start |
HOLO.darkNumStart |
Index of first dark image. |
HOLO.darkNumStart (HOLO_dark_num_start) is deprecated. |
NX_FLOAT |
|
HOLO_dark_num_end |
HOLO.darkNumEnd |
Index of last dark image. |
HOLO.darkNumEnd (HOLO_dark_num_end) is deprecated. |
NX_FLOAT |
|
HTXRPD_energy |
HTXRPD.energy |
Primary beam energy used for the measurement. |
NX_NUMBER |
keV |
|
HTXRPD_exposureTime |
HTXRPD.exposureTime |
Requested exposure time per diffraction pattern. |
NX_NUMBER |
s |
|
HTXRPD_distance |
HTXRPD.distance |
The perpendicular sample-detector distance. |
NX_NUMBER |
mm |
|
HTXRPD_sampleVibration |
HTXRPD.sampleVibration |
The vibration speed of the powder sample (0-100 %). |
NX_FLOAT |
||
MRT_mscType |
MRT.mscType |
Type of the multislit collimator. |
NX_CHAR |
||
MRT_doseRate |
MRT.doseRate |
Dose rate. |
NX_NUMBER |
Gy/mA/s |
|
MRT_ctcMot |
MRT.ctcMot |
Center-to-center motor identifier. |
NX_CHAR |
||
MRT_ctcSpacing |
MRT.ctcSpacing |
Center-to-center spacing of microbeams. |
NX_NUMBER |
µm |
|
MRT_ctcN |
MRT.ctcN |
Number of microbeam irradiations. |
NX_INT |
||
MRT_crossMot |
MRT.crossMot |
Crossfiring motor identifier. |
NX_CHAR |
||
MRT_crossAngle |
MRT.crossAngle |
Crossfiring angle of microbeams. |
NX_NUMBER |
deg |
|
MRT_crossN |
MRT.crossN |
Number of crossfiring positions. |
NX_INT |
||
MRT_intlcdMot |
MRT.intlcdMot |
Interlaced motor identifier. |
NX_CHAR |
||
MRT_intlcdOff |
MRT.intlcdOff |
Interlaced offset distance. |
NX_NUMBER |
µm |
|
MRT_expoStart |
MRT.expoStart |
Z-axis start position. |
NX_NUMBER |
mm |
|
MRT_expoStop |
MRT.expoStop |
Z-axis stop position. |
NX_NUMBER |
mm |
|
MRT_expoSpeed |
MRT.expoSpeed |
Z-axis translation speed. |
NX_NUMBER |
mm/s |
|
MRT_IC01 |
MRT.IC01 |
Counts from ion chamber 0-1. |
NX_FLOAT |
||
MRT_IC02 |
MRT.IC02 |
Counts from ion chamber 0-2. |
NX_FLOAT |
||
MRT_IC0MU1 |
MRT.IC0MU1 |
Counts from ion MUSST chamber 0-1. |
NX_FLOAT |
||
MRT_IC0MU2 |
MRT.IC0MU2 |
Counts from ion MUSST chamber 0-2. |
NX_FLOAT |
||
MRT_IONCH1 |
MRT.IONCH1 |
Counts from ion chamber 1. |
NX_FLOAT |
||
MRT_IONCH2 |
MRT.IONCH2 |
Counts from ion chamber 2. |
NX_FLOAT |
||
MRT_dose |
MRT.dose |
Planned dose. |
NX_NUMBER |
Gy |
|
MRT_beamHeight |
MRT.beamHeight |
Vertical height of the microbeam. |
NX_NUMBER |
µm |
|
MRT_beamSize |
MRT.beamSize |
Width of the microbeam. |
NX_NUMBER |
µm |
|
MX_aperture |
MX.aperture |
Aperture size in microns |
NX_CHAR |
||
MX_kappa_settings_id |
MX.kappa_settings_id |
Identifier used to distinguished between multiple kappa setting within the same data collection |
NX_CHAR |
||
MX_beamShape |
MX.beamShape |
Beam shape at sample position |
NX_CHAR |
||
MX_beamSizeAtSampleX |
MX.beamSizeAtSampleX |
Horizontal beam size in millimeters at sample position |
NX_NUMBER |
mm |
|
MX_beamSizeAtSampleY |
MX.beamSizeAtSampleY |
Vertical beam size in millimeters at sample position |
NX_NUMBER |
mm |
|
MX_dataCollectionId |
MX.dataCollectionId |
ISPyB data collection id |
NX_CHAR |
||
MX_detectorDistance |
MX.detectorDistance |
Distance from detector to sample position |
NX_NUMBER |
mm |
|
MX_directory |
MX.directory |
Data collection directory |
NX_CHAR |
||
MX_exposureTime |
MX.exposureTime |
Exposure time per frame |
NX_NUMBER |
s |
|
MX_flux |
MX.flux |
Photon flux at the sample position |
NX_NUMBER |
photons/s |
|
MX_fluxEnd |
MX.fluxEnd |
Flux in photon/s before data collection |
NX_NUMBER |
photons/s |
|
MX_motors_name |
MX.motorsName |
Motor names |
NX_CHAR |
||
MX_motors_value |
MX.motorsValue |
Motor positions in mm |
NX_NUMBER |
mm |
|
MX_numberOfImages |
MX.numberOfImages |
Number of images |
NX_INT |
||
MX_oscillationOverlap |
MX.oscillationOverlap |
Overlap between frames |
NX_NUMBER |
deg |
|
MX_oscillationRange |
MX.oscillationRange |
Degrees rotated per frame |
NX_NUMBER |
deg |
|
MX_oscillationStart |
MX.oscillationStart |
Starting angle of data collection |
NX_NUMBER |
deg |
|
MX_resolution |
MX.resolution |
Resolution at the edge of the detector |
NX_NUMBER |
Å |
|
MX_resolution_at_corner |
MX.resolution_at_corner |
Resolution at the corner of the detector |
NX_NUMBER |
Å |
|
MX_scanType |
MX.scanType |
mxCuBE experiment type |
NX_CHAR |
||
MX_startImageNumber |
MX.startImageNumber |
Data collection image start number |
NX_INT |
||
MX_template |
MX.template |
Image file name template |
NX_CHAR |
||
MX_transmission |
MX.transmission |
Transmission in % |
NX_CHAR |
||
MX_wavelength |
MX.wavelength |
Wavelength in A |
NX_NUMBER |
Å |
|
MX_xBeam |
MX.xBeam |
Horizontal beam center |
NX_FLOAT |
pixel |
|
MX_yBeam |
MX.yBeam |
Vertical beam center |
NX_FLOAT |
pixel |
|
MX_rotation_axis |
MX.rotation_axis |
Name of the rotation axis |
NX_CHAR |
||
MX_axis_range |
MX.axis_range |
Axis range |
NX_CHAR |
||
MX_axis_start |
MX.axis_start |
Rotation start angle |
NX_CHAR |
||
MX_axis_end |
MX.axis_end |
Rotation end angle |
NX_CHAR |
||
MXSAD_min_resolution |
MX.SAD.min_resolution |
SAD minimal resolution |
NX_NUMBER |
Å |
|
MXSAD_max_resolution |
MX.SAD.max_resolution |
SAD maximal resolution |
NX_NUMBER |
Å |
|
MXSAD_enantiomorph |
MX.SAD.enantiomorph |
SAD enantiomorph |
NX_CHAR |
||
MXSAD_space_group |
MX.SAD.space_group |
SAD space group |
NX_CHAR |
||
MXSAD_step |
MX.SAD.step |
SAD step |
NX_CHAR |
||
MXSAD_solvent |
MX.SAD.solvent |
SAD solvent |
NX_CHAR |
||
MXSAD_pseudo_free_cc |
MX.SAD.pseudo_free_cc |
SAD pseudo_free_cc |
NX_CHAR |
||
MXSAD_cc_partial_model |
MX.SAD.cc_partial_model |
SAD cc_partial_model |
NX_CHAR |
||
MXSAD_chain_count |
MX.SAD.chain_count |
SAD chain_count |
NX_CHAR |
||
MXSAD_residues_count |
MX.SAD.residues_count |
SAD residues_count |
NX_CHAR |
||
MXSAD_average_fragment_length |
MX.SAD.average_fragment_length |
SAD average_fragment_length |
NX_CHAR |
||
MXSAD_PDB_file |
MX.SAD.PDB_file |
SAD PDB file path |
NX_CHAR |
||
MXSAD_MTZ_file |
MX.SAD.MTZ_file |
SAD MTZ file path |
NX_CHAR |
||
MXMR_step |
MX.MR.step |
MR Step |
NX_CHAR |
||
MXMR_space_group |
MX.MR.space_group |
MR space group |
NX_CHAR |
||
MXMR_min_resolution |
MX.MR.min_resolution |
MR min resolution |
NX_CHAR |
||
MXMR_max_resolution |
MX.MR.max_resolution |
MR max resolution |
NX_CHAR |
||
MXMRPhasing_source |
MX.MR.Phasing.source |
Describes the pdb suource: Alphafold, user, unit cell |
NX_CHAR |
||
MXMRPhasing_search_model |
MX.MR.Phasing.search_model |
Identifier to the search model. It can be a link |
NX_CHAR |
||
MXMRPhasing_space_group |
MX.MR.Phasing.space_group |
Phasing space group |
NX_CHAR |
||
MXMRPhasing_number_of_search_models_found |
MX.MR.Phasing.number_of_search_models_found |
Models found |
NX_CHAR |
||
MXMRPhasing_best_RFZ |
MX.MR.Phasing.best_RFZ |
Best RFZ |
NX_CHAR |
||
MXMRPhasing_best_TFZ |
MX.MR.Phasing.best_TFZ |
Best TTZ |
NX_CHAR |
||
MXMRPhasing_LLG |
MX.MR.Phasing.LLG |
Best LLG |
NX_CHAR |
||
MXMRPhasing_monomer_form_count |
MX.MR.Phasing.monomer_form_count |
Number of monomers |
NX_CHAR |
||
MXMRPhasing_RFZ_list |
MX.MR.Phasing.RFZ_list |
List of RFZ |
NX_CHAR |
||
MXMRPhasing_TFZ_list |
MX.MR.Phasing.TFZ_list |
List of TFZ |
NX_CHAR |
||
MXMRPhasing_PDB_file |
MX.MR.Phasing.PDB_file |
pdb file path |
NX_CHAR |
||
MXMRPhasing_MTZ_file |
MX.MR.Phasing.MTZ_file |
MTZ file path |
NX_CHAR |
||
MXMRPhasing_MAP_2FOFC |
MX.MR.Phasing.MAP_2FOFC |
2FOFC map file path |
NX_CHAR |
||
MXMRPhasing_MAP_FOFC |
MX.MR.Phasing.MAP_FOFC |
FOFC map file path |
NX_CHAR |
||
MXMRRefinement_R_free |
MX.MR.Refinement.R_free |
Free-r |
NX_CHAR |
||
MXMRRefinement_R_cryst |
MX.MR.Refinement.R_cryst |
R crystal |
NX_CHAR |
||
MXMRRefinement_PDB_file |
MX.MR.Refinement.PDB_file |
List of TFZ |
NX_CHAR |
||
MXMRRefinement_MTZ_file |
MX.MR.Refinement.MTZ_file |
List of TFZ |
NX_CHAR |
||
MXMRRefinement_MAP_FOFC |
MX.MR.Refinement.MAP_FOFC |
MAP_FOFC file path |
NX_CHAR |
||
MXMRRefinement_MAP_2FOFC |
MX.MR.Refinement.MAP_2FOFC |
MAP_2FOFC file path |
NX_CHAR |
||
MXMRLigandFitting_ligand_FOFC_CC |
MX.MR.LigandFitting.ligand_FOFC_CC |
Correlation coefficient between ligand and FO-FC map. |
NX_FLOAT |
||
MXMRLigandFitting_R_free |
MX.MR.LigandFitting.R_free |
Free R-factor. |
NX_FLOAT |
||
MXMRLigandFitting_R_cryst |
MX.MR.LigandFitting.R_cryst |
R_work crystallographic R-factor. |
NX_FLOAT |
||
MXMRLigandFitting_B_factor |
MX.MR.LigandFitting.B_factor |
Average B-factor of ligand. |
NX_NUMBER |
Ų |
|
MXMRLigandFitting_occupancy |
MX.MR.LigandFitting.occupancy |
Ligand occupancy. |
NX_FLOAT |
||
MXMRLigandFitting_PDB_file |
MX.MR.LigandFitting.PDB_file |
Path to PDB structure file. |
NX_CHAR |
||
MXMRLigandFitting_MTZ_file |
MX.MR.LigandFitting.MTZ_file |
Path to MTZ reflection file. |
NX_CHAR |
||
MXMRLigandFitting_PNG_2FOFC |
MX.MR.LigandFitting.PNG_2FOFC |
PNG image of ligand in 2FO-FC map. |
NX_CHAR |
||
MXMRLigandFitting_PNG_FOFC |
MX.MR.LigandFitting.PNG_FOFC |
PNG image of ligand in FO-FC map. |
NX_CHAR |
||
MXMRLigandFitting_GIF_file |
MX.MR.LigandFitting.GIF_file |
Animated GIF of ligand in electron density. |
NX_CHAR |
||
MXMRLigandFitting_ligand_XYZ |
MX.MR.LigandFitting.ligand_XYZ |
Ligand Cartesian coordinates. |
NX_NUMBER |
Å |
|
MXMRLigandFitting_ligand_name |
MX.MR.LigandFitting.ligand_name |
Ligand name. |
NX_CHAR |
||
MXMRLigandFitting_MAP_FOFC |
MX.MR.LigandFitting.MAP_FOFC |
Path to FO-FC electron density map. |
NX_CHAR |
||
MXMRLigandFitting_MAP_2FOFC |
MX.MR.LigandFitting.MAP_2FOFC |
Path to 2FO-FC electron density map. |
NX_CHAR |
||
MXAutoprocIntegration_start_image_number |
MX.AutoprocIntegration.start_image_number |
First image number of the integration |
NX_INT |
||
MXAutoprocIntegration_end_image_number |
MX.AutoprocIntegration.end_image_number |
Last image number of the integration |
NX_INT |
||
MXAutoprocIntegration_detector_distance |
MX.AutoprocIntegration.detector_distance |
Refined detector distance |
NX_CHAR |
||
MXAutoprocIntegration_beam_x |
MX.AutoprocIntegration.beam_x |
Refined beam x |
NX_CHAR |
||
MXAutoprocIntegration_beam_y |
MX.AutoprocIntegration.beam_y |
Refined beam y |
NX_CHAR |
||
MXAutoprocIntegration_rotation_axis_x |
MX.AutoprocIntegration.rotation_axis_x |
X position of the rotation axis |
NX_CHAR |
||
MXAutoprocIntegration_rotation_axis_y |
MX.AutoprocIntegration.rotation_axis_y |
Y position of the rotation axis |
NX_CHAR |
||
MXAutoprocIntegration_rotation_axis_z |
MX.AutoprocIntegration.rotation_axis_z |
Z position of the rotation axis |
NX_CHAR |
||
MXAutoprocIntegration_beam_vector_x |
MX.AutoprocIntegration.beam_vector_x |
Vector X |
NX_CHAR |
||
MXAutoprocIntegration_beam_vector_y |
MX.AutoprocIntegration.beam_vector_y |
Vector Y |
NX_CHAR |
||
MXAutoprocIntegration_beam_vector_z |
MX.AutoprocIntegration.beam_vector_z |
Vector Z |
NX_CHAR |
||
MXAutoprocIntegration_space_group |
MX.AutoprocIntegration.space_group |
Space group |
NX_CHAR |
||
MXAutoprocIntegration_cell_a |
MX.AutoprocIntegration.cell_a |
cell a |
NX_CHAR |
||
MXAutoprocIntegration_cell_b |
MX.AutoprocIntegration.cell_b |
cell b |
NX_CHAR |
||
MXAutoprocIntegration_cell_c |
MX.AutoprocIntegration.cell_c |
cell c |
NX_CHAR |
||
MXAutoprocIntegration_cell_alpha |
MX.AutoprocIntegration.cell_alpha |
cell alpha |
NX_CHAR |
||
MXAutoprocIntegration_cell_beta |
MX.AutoprocIntegration.cell_beta |
cell beta |
NX_CHAR |
||
MXAutoprocIntegration_cell_gamma |
MX.AutoprocIntegration.cell_gamma |
cell gamma |
NX_CHAR |
||
MXAutoprocIntegration_anomalous |
MX.AutoprocIntegration.anomalous |
anomalous |
NX_CHAR |
||
MXAutoprocIntegration_diffraction_limit_direction_1 |
MX.AutoprocIntegration.diffraction_limit_direction_1 |
Diffraction limits (Ang.) of the ellipsoid fitted to the diffraction cut-off surface as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors |
NX_CHAR |
||
MXAutoprocIntegration_diffraction_limit_direction_2 |
MX.AutoprocIntegration.diffraction_limit_direction_2 |
Diffraction limits (Ang.) of the ellipsoid fitted to the diffraction cut-off surface as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors |
NX_CHAR |
||
MXAutoprocIntegration_diffraction_limit_direction_3 |
MX.AutoprocIntegration.diffraction_limit_direction_3 |
Diffraction limits (Ang.) of the ellipsoid fitted to the diffraction cut-off surface as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors |
NX_CHAR |
||
MXAutoprocIntegration_principal_axis_1 |
MX.AutoprocIntegration.principal_axis_1 |
Corresponding principal axes of the ellipsoid fitted to the diffraction cut-off surface as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors |
NX_CHAR |
||
MXAutoprocIntegration_principal_axis_2 |
MX.AutoprocIntegration.principal_axis_2 |
Corresponding principal axes of the ellipsoid fitted to the diffraction cut-off surface as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors |
NX_CHAR |
||
MXAutoprocIntegration_principal_axis_3 |
MX.AutoprocIntegration.principal_axis_3 |
Corresponding principal axes of the ellipsoid fitted to the diffraction cut-off surface as direction cosines relative to the orthonormal basis (standard PDB convention), and also in terms of reciprocal unit-cell vectors |
NX_CHAR |
||
MXAutoprocIntegration_fit_to_line_slope |
MX.AutoprocIntegration.fit_to_line_slope |
Slope of the linear regression fit of the estimated resolution per data frame |
NX_CHAR |
||
MXAutoprocIntegration_fit_to_line_r2 |
MX.AutoprocIntegration.fit_to_line_r2 |
R squared of linear regression fit of estimated resolution per data frame |
NX_CHAR |
||
MXAutoprocIntegration_fit_to_line_stdv |
MX.AutoprocIntegration.fit_to_line_stdv |
Standard deviation of linear regression fit of estimated resolution per data frame |
NX_CHAR |
||
MXAutoprocIntegrationScaling_overall_resolution_limit_low |
MX.AutoprocIntegration.Scaling.overall_resolution_limit_low |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_resolution_limit_high |
MX.AutoprocIntegration.Scaling.overall_resolution_limit_high |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_r_merge |
MX.AutoprocIntegration.Scaling.overall_r_merge |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_r_meas_within_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.overall_r_meas_within_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_r_meas_all_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.overall_r_meas_all_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_r_pim_within_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.overall_r_pim_within_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_r_pim_all_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.overall_r_pim_all_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_fractional_partial_bias |
MX.AutoprocIntegration.Scaling.overall_fractional_partial_bias |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_n_total_observations |
MX.AutoprocIntegration.Scaling.overall_n_total_observations |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_n_total_unique_observations |
MX.AutoprocIntegration.Scaling.overall_n_total_unique_observations |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_mean_I_over_sigI |
MX.AutoprocIntegration.Scaling.overall_mean_I_over_sigI |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_completeness |
MX.AutoprocIntegration.Scaling.overall_completeness |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_multiplicity |
MX.AutoprocIntegration.Scaling.overall_multiplicity |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_anomalous_completeness |
MX.AutoprocIntegration.Scaling.overall_anomalous_completeness |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_anomalous_multiplicity |
MX.AutoprocIntegration.Scaling.overall_anomalous_multiplicity |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_anomalous |
MX.AutoprocIntegration.Scaling.overall_anomalous |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_cc_half |
MX.AutoprocIntegration.Scaling.overall_cc_half |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_ccAno |
MX.AutoprocIntegration.Scaling.overall_ccAno |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_sigAno |
MX.AutoprocIntegration.Scaling.overall_sigAno |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_isa |
MX.AutoprocIntegration.Scaling.overall_isa |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_completeness_spherical |
MX.AutoprocIntegration.Scaling.overall_completeness_spherical |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_completeness_ellipsoidal |
MX.AutoprocIntegration.Scaling.overall_completeness_ellipsoidal |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_anomalous_completeness_spherical |
MX.AutoprocIntegration.Scaling.overall_anomalous_completeness_spherical |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_overall_anomalous_completeness_ellipsoidal |
MX.AutoprocIntegration.Scaling.overall_anomalous_completeness_ellipsoidal |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_resolution_limit_low |
MX.AutoprocIntegration.Scaling.inner_resolution_limit_low |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_resolution_limit_high |
MX.AutoprocIntegration.Scaling.inner_resolution_limit_high |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_r_merge |
MX.AutoprocIntegration.Scaling.inner_r_merge |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_r_meas_within_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.inner_r_meas_within_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_r_meas_all_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.inner_r_meas_all_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_r_pim_within_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.inner_r_pim_within_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_r_pim_all_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.inner_r_pim_all_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_fractional_partial_bias |
MX.AutoprocIntegration.Scaling.inner_fractional_partial_bias |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_n_total_observations |
MX.AutoprocIntegration.Scaling.inner_n_total_observations |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_n_total_unique_observations |
MX.AutoprocIntegration.Scaling.inner_n_total_unique_observations |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_mean_I_over_sigI |
MX.AutoprocIntegration.Scaling.inner_mean_I_over_sigI |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_completeness |
MX.AutoprocIntegration.Scaling.inner_completeness |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_multiplicity |
MX.AutoprocIntegration.Scaling.inner_multiplicity |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_anomalous_completeness |
MX.AutoprocIntegration.Scaling.inner_anomalous_completeness |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_anomalous_multiplicity |
MX.AutoprocIntegration.Scaling.inner_anomalous_multiplicity |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_anomalous |
MX.AutoprocIntegration.Scaling.inner_anomalous |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_cc_half |
MX.AutoprocIntegration.Scaling.inner_cc_half |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_ccAno |
MX.AutoprocIntegration.Scaling.inner_ccAno |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_sigAno |
MX.AutoprocIntegration.Scaling.inner_sigAno |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_isa |
MX.AutoprocIntegration.Scaling.inner_isa |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_completeness_spherical |
MX.AutoprocIntegration.Scaling.inner_completeness_spherical |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_completeness_ellipsoidal |
MX.AutoprocIntegration.Scaling.inner_completeness_ellipsoidal |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_anomalous_completeness_spherical |
MX.AutoprocIntegration.Scaling.inner_anomalous_completeness_spherical |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_inner_anomalous_completeness_ellipsoidal |
MX.AutoprocIntegration.Scaling.inner_anomalous_completeness_ellipsoidal |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_resolution_limit_low |
MX.AutoprocIntegration.Scaling.outer_resolution_limit_low |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_resolution_limit_high |
MX.AutoprocIntegration.Scaling.outer_resolution_limit_high |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_r_merge |
MX.AutoprocIntegration.Scaling.outer_r_merge |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_r_meas_within_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.outer_r_meas_within_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_r_meas_all_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.outer_r_meas_all_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_r_pim_within_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.outer_r_pim_within_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_r_pim_all_IPlus_IMinus |
MX.AutoprocIntegration.Scaling.outer_r_pim_all_IPlus_IMinus |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_fractional_partial_bias |
MX.AutoprocIntegration.Scaling.outer_fractional_partial_bias |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_n_total_observations |
MX.AutoprocIntegration.Scaling.outer_n_total_observations |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_n_total_unique_observations |
MX.AutoprocIntegration.Scaling.outer_n_total_unique_observations |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_mean_I_over_sigI |
MX.AutoprocIntegration.Scaling.outer_mean_I_over_sigI |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_completeness |
MX.AutoprocIntegration.Scaling.outer_completeness |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_multiplicity |
MX.AutoprocIntegration.Scaling.outer_multiplicity |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_anomalous_completeness |
MX.AutoprocIntegration.Scaling.outer_anomalous_completeness |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_anomalous_multiplicity |
MX.AutoprocIntegration.Scaling.outer_anomalous_multiplicity |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_anomalous |
MX.AutoprocIntegration.Scaling.outer_anomalous |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_cc_half |
MX.AutoprocIntegration.Scaling.outer_cc_half |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_ccAno |
MX.AutoprocIntegration.Scaling.outer_ccAno |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_sigAno |
MX.AutoprocIntegration.Scaling.outer_sigAno |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_isa |
MX.AutoprocIntegration.Scaling.outer_isa |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_completeness_spherical |
MX.AutoprocIntegration.Scaling.outer_completeness_spherical |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_completeness_ellipsoidal |
MX.AutoprocIntegration.Scaling.outer_completeness_ellipsoidal |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_anomalous_completeness_spherical |
MX.AutoprocIntegration.Scaling.outer_anomalous_completeness_spherical |
NX_CHAR |
|||
MXAutoprocIntegrationScaling_outer_anomalous_completeness_ellipsoidal |
MX.AutoprocIntegration.Scaling.outer_anomalous_completeness_ellipsoidal |
NX_CHAR |
|||
MX_position_id |
MX.position_id |
Identifier of the position within the crystal |
NX_CHAR |
||
MX_characterisation_id |
MX.characterisation_id |
Identifier of the characterisation |
NX_CHAR |
||
MX_phix |
MX.phix |
Alignment table x translation |
NX_NUMBER |
mm |
|
MX_phiy |
MX.phiy |
Alignment table y translation |
NX_NUMBER |
mm |
|
MX_phiz |
MX.phiz |
Alignment table z translation |
NX_NUMBER |
mm |
|
MX_sampx |
MX.sampx |
Centring table x translation |
NX_NUMBER |
mm |
|
MX_sampy |
MX.sampy |
Centring table y translation |
NX_NUMBER |
mm |
|
MX_kappa |
MX.kappa |
Mini-kappa reorientation angle |
NX_NUMBER |
deg |
|
MX_phi |
MX.phi |
Kappa_phi rotation angle |
NX_NUMBER |
deg |
|
MX_omega |
MX.omega |
Goniometer rotation axis |
NX_NUMBER |
deg |
|
MX_positionName |
MX.positionName |
Name of the sample position used during data collection (e.g. ‘2D-Point-1’, ‘2D-Point-2’), derived from centered position, line and grid information. This value is used to group datasets acquired from the same position, regardless of the scan type. |
NX_CHAR |
||
PTYCHO_propagation |
PTYCHO.propagation |
Propagation may be near or far |
NX_CHAR |
||
PTYCHO_beamSize |
PTYCHO.beamSize |
Beam size on the sample in microns |
NX_NUMBER |
µm |
|
PTYCHO_stepSize |
PTYCHO.stepSize |
Step size during scan |
NX_NUMBER |
µm |
|
PTYCHO_focusToDetectorDistance |
PTYCHO.focusToDetectorDistance |
Focus to detector distance |
NX_NUMBER |
mm |
|
PTYCHO_countTime |
PTYCHO.countTime |
Step size during scan |
NX_NUMBER |
s |
|
PTYCHO_parameters |
PTYCHO.parameters |
Ptycho parameters |
NX_CHAR |
||
PTYCHO_tomoParameters |
PTYCHO.tomoParameters |
Ptycho tomography parameters |
NX_CHAR |
||
PTYCHO_refN |
PTYCHO.refN |
Ptycho parameters |
NX_FLOAT |
||
PTYCHO_darkN |
PTYCHO.darkN |
Ptycho parameters |
NX_FLOAT |
||
PTYCHO_pixelSize |
PTYCHO.pixelSize |
Ptycho parameters |
NX_NUMBER |
µm |
|
PTYCHO_Axis1_name |
PTYCHO.Axis1.name |
Scan motor in the horizontal direction |
NX_CHAR |
||
PTYCHO_Axis1_range |
PTYCHO.Axis1.range |
Range of the moves in microns |
NX_NUMBER |
µm |
|
PTYCHO_Axis2_name |
PTYCHO.Axis2.name |
Scan motor in the vertical direction |
NX_CHAR |
||
PTYCHO_Axis2_range |
PTYCHO.Axis2.range |
Range of the moves in microns |
NX_NUMBER |
µm |
|
saxs_definition |
SAXS.definition |
Technique used to collect this dataset |
NX_CHAR |
||
saxs_definition.version |
SAXS.version |
Version |
NX_CHAR |
||
SAXS_directory |
SAXS.directory |
Data collection directory |
NX_CHAR |
||
SAXS_experimentType |
SAXS.experimentType |
Type of experiment |
NX_CHAR |
||
SAXS_prefix |
SAXS.prefix |
NX_CHAR |
|||
SAXS_maskFile |
SAXS.maskFile |
NX_CHAR |
|||
SAXS_numberFrames |
SAXS.numberFrames |
NX_CHAR |
|||
SAXS_timePerFrame |
SAXS.timePerFrame |
NX_CHAR |
|||
SAXS_concentration |
SAXS.concentration |
NX_CHAR |
|||
SAXS_comments |
SAXS.comments |
NX_CHAR |
|||
SAXS_code |
SAXS.code |
NX_CHAR |
|||
SAXS_detector_distance |
SAXS.detector_distance |
NX_CHAR |
|||
SAXS_waveLength |
SAXS.waveLength |
NX_CHAR |
|||
SAXS_pixelSizeX |
SAXS.pixelSizeX |
NX_CHAR |
|||
SAXS_pixelSizeY |
SAXS.pixelSizeY |
NX_CHAR |
|||
SAXS_beam_center_x |
SAXS.beam_center_x |
NX_CHAR |
|||
SAXS_beam_center_y |
SAXS.beam_center_y |
NX_CHAR |
|||
SAXS_normalisation |
SAXS.normalisation |
NX_CHAR |
|||
SAXS_diode_currents |
SAXS.diode_currents |
NX_CHAR |
|||
SAXS_acronym |
SAXS.acronym |
NX_CHAR |
|||
SAXS_transmission |
SAXS.transmission |
NX_CHAR |
|||
SAXS_storage_temperature |
SAXS.storage_temperature |
NX_CHAR |
|||
SAXS_exposure_temperature |
SAXS.exposure_temperature |
NX_CHAR |
|||
SAXS_column_type |
SAXS.column_type |
HPLC column type. [ex. Agilent BioSEC 130] |
NX_CHAR |
||
SAXS_flow_rate |
SAXS.flow_rate |
NX_CHAR |
|||
SAXS_hplc_port |
SAXS.hplc_port |
NX_CHAR |
|||
SAXS_sample_type |
SAXS.sample_type |
It can be buffer or sample |
NX_CHAR |
||
SAXS_run_number |
SAXS.run_number |
It can be buffer or sample |
NX_CHAR |
||
SAXS_experiment_type |
SAXS.experiment_type |
It the kind of experiment: sample changer or HPLC |
NX_CHAR |
||
SAXS_guinier_rg |
SAXS.guinier_rg |
Guinier radius of giration |
NX_CHAR |
||
SAXS_guinier_sigma_rg |
SAXS.guinier_sigma_rg |
Guinier radius of giration sigma |
NX_CHAR |
||
SAXS_guinier_points |
SAXS.guinier_points |
Points of the Guinier region |
NX_CHAR |
||
SAXS_guinier_points_start |
SAXS.guinier_points_start |
Points of the Guinier region |
NX_CHAR |
||
SAXS_guinier_points_end |
SAXS.guinier_points_end |
Points of the Guinier region |
NX_CHAR |
||
SAXS_guinier_i0 |
SAXS.guinier_i0 |
Guinier radius of giration |
NX_CHAR |
||
SAXS_rg |
SAXS.rg |
Calculated radious of giration. It can be calculated with Gnom or BIFT |
NX_CHAR |
||
SAXS_rg_std |
SAXS.rg_std |
Calculated std radious of giration |
NX_CHAR |
||
SAXS_rg_avg |
SAXS.rg_avg |
Calculated average of radious of giration |
NX_CHAR |
||
SAXS_total |
SAXS.total |
NX_CHAR |
|||
SAXS_d_max |
SAXS.d_max |
maximum particle dimension. it is the largest distance between any two points within the particle and is a crucial parameter in SAXS analysis. |
NX_CHAR |
||
SAXS_d_max_std |
SAXS.d_max_std |
d_max standard deviation |
NX_CHAR |
||
SAXS_porod_volume |
SAXS.porod_volume |
The Porod volume is an estimate of the molecular volume of a particle derived from SAXS data. It is obtained using the Porod invariant, which is related to the scattering intensity at high angles. |
NX_CHAR |
||
SAXS_porod_MM_volume_estimation |
SAXS.porod_MM_volume_estimation |
molecular weight (MW) of a macromolecule in solution using the Porod volume |
NX_CHAR |
||
SAXS_frames_averaged |
SAXS.frames_averaged |
NX_CHAR |
|||
SAXS_vc |
SAXS.vc |
The Volume of Correlation is a SAXS-derived parameter that provides an alternative estimate of the molecular volume of a biomolecule. |
NX_NUMBER |
nm³ |
|
SAXS_vc_error |
SAXS.vc_error |
Volume of correlation error |
NX_NUMBER |
nm³ |
|
SAXS_mass |
SAXS.mass |
Molecular weight |
NX_NUMBER |
kDa |
|
SAXS_mass_error |
SAXS.mass_error |
Molecular weight error |
NX_NUMBER |
kDa |
|
SAXS_chi2r |
SAXS.chi2r |
goodness of fit between experimental scattering data and a theoretical model or fit. |
NX_CHAR |
||
SAXS_chi2r_error |
SAXS.chi2r_error |
Error of the agreement |
NX_CHAR |
||
SCXRD_sample_detector_distance |
SCXRD.sample_detector_distance |
Distance from sample to detector |
NX_NUMBER |
m |
|
SCXRD_beam_center_x |
SCXRD.beam_center_x |
X Coordinate of the beamcenter |
NX_FLOAT |
||
SCXRD_beam_center_y |
SCXRD.beam_center_y |
Y Coordinate of the beamcenter |
NX_FLOAT |
||
SCXRD_wavelength |
SCXRD.wavelength |
X-ray wavelength |
NX_NUMBER |
Å |
|
SCXRD_detector_tilts |
SCXRD.detector_tilts |
Detector tilts around X, Y and Z axes |
NX_NUMBER |
deg |
|
SCXRD_rotation_axis |
SCXRD.rotation_axis |
Name of the rotation axis (e.g., omega) |
NX_CHAR |
||
SCXRD_rotation_range |
SCXRD.rotation_range |
Rotation range for the crystal scan (start,end) |
NX_NUMBER |
deg |
|
SCXRD_rotation_step |
SCXRD.rotation_step |
Rotation step between two frames |
NX_NUMBER |
deg |
|
SCXRD_exposure_time |
SCXRD.exposure_time |
Exposure time per image |
NX_NUMBER |
s |
|
SSXJet_speed |
SSX.jet.speed |
Jet’s speed |
NX_CHAR |
||
SSXJet_size |
SSX.jet.size |
Jet’s size |
NX_CHAR |
||
SSXChip_horizontal_spacing |
SSX.chip.horizontal_spacing |
NX_CHAR |
|||
SSXChip_vertical_spacing |
SSX.chip.vertical_spacing |
NX_CHAR |
|||
SSXChip_row_number |
SSX.chip.row_number |
NX_CHAR |
|||
SSXChip_column_number |
SSX.chip.column_number |
NX_CHAR |
|||
SSXChip_model |
SSX.chip.model |
NX_CHAR |
|||
SXDM_beamSizeVertical |
SXDM.beamSizeVertical |
Vertical beam size on the sample in microns. |
NX_NUMBER |
µm |
|
SXDM_beamSizeHorizontal |
SXDM.beamSizeHorizontal |
Horizontal beam size on the sample in microns. |
NX_NUMBER |
µm |
|
TOMOAcquisition_technique |
TOMO.acquisition.technique |
Technique used for hierarchical phase-contrast tomography. |
NX_CHAR |
||
TOMOAcquisition_proj_n |
TOMO.acquisition.proj_n |
Number of projections images. |
NX_FLOAT |
||
TOMOAcquisition_flat_n |
TOMO.acquisition.flat_n |
Number of flat field images. |
NX_FLOAT |
||
TOMOAcquisition_dark_n |
TOMO.acquisition.dark_n |
Number of dark field images. |
NX_FLOAT |
||
TOMOAcquisition_flat_on |
TOMO.acquisition.flat_on |
Interval for capturing flat field images. |
NX_FLOAT |
||
TOMOAcquisition_y_step |
TOMO.acquisition.y_step |
Translation step size in the Y-axis for flat images. |
NX_NUMBER |
mm |
|
TOMOAcquisition_z_step |
TOMO.acquisition.z_step |
Translation step size in the Z-axis for flat images. |
NX_NUMBER |
mm |
|
TOMOAcquisition_start_angle |
TOMO.acquisition.start_angle |
Start angle of the tomographic acquisition. |
NX_NUMBER |
deg |
|
TOMOAcquisition_exposure_time |
TOMO.acquisition.exposure_time |
Exposure time per projection. |
NX_NUMBER |
s |
|
TOMOAcquisition_sample_detector_distance |
TOMO.acquisition.sample_detector_distance |
Distance between sample and detector. |
NX_NUMBER |
mm |
|
TOMOAcquisition_source_sample_distance |
TOMO.acquisition.source_sample_distance |
Distance between source and sample. |
NX_NUMBER |
mm |
|
TOMOAcquisition_energy |
TOMO.acquisition.energy |
Beam energy. |
NX_NUMBER |
keV |
|
TOMOAcquisition_half_acquisition |
TOMO.acquisition.half_acquisition |
Half-acquisition mode enabled. |
NX_BOOLEAN |
||
TOMOAcquisition_type |
TOMO.acquisition.type |
Acquisition type (e.g., half, full, or quarter acquisition). |
NX_CHAR |
||
TOMOAcquisition_camera_pixel_size |
TOMO.acquisition.camera_pixel_size |
Pixel size of the camera hardware. |
NX_NUMBER |
µm |
|
TOMOAcquisition_sample_pixel_size |
TOMO.acquisition.sample_pixel_size |
Pixel size in the sample space after all magnifications. |
NX_NUMBER |
µm |
|
TOMOAcquisition_optic_magnified_pixel_size |
TOMO.acquisition.optic_magnified_pixel_size |
Pixel size in the sample space after magnification of the optics. |
NX_NUMBER |
µm |
|
TOMOAcquisition_magnification |
TOMO.acquisition.magnification |
Magnification factor of the optics. |
NX_FLOAT |
||
TOMOAcquisition_beam_magnification |
TOMO.acquisition.beam_magnification |
Magnification factor from the beam divergence. |
NX_FLOAT |
||
TOMOAcquisition_read_srcur |
TOMO.acquisition.read_srcur |
Enable real-time beam intensity measurement. |
NX_BOOLEAN |
||
TOMOAcquisition_srcur_start |
TOMO.acquisition.srcur_start |
Beam intensity before scan. |
NX_NUMBER |
mA |
|
TOMOAcquisition_srcur_stop |
TOMO.acquisition.srcur_stop |
Beam intensity after scan. |
NX_NUMBER |
mA |
|
TOMOAcquisition_scan_range |
TOMO.acquisition.scan_range |
Rotation range for tomography. |
NX_NUMBER |
deg |
|
TOMOAcquisition_scan_type |
TOMO.acquisition.scan_type |
Type of scan used for the projection scan (e.g. INTERLACED, STEP, CONTINUOUS). |
NX_CHAR |
||
TOMOAcquisition_acc_exposure_time |
TOMO.acquisition.acc_exposure_time |
Accumulated exposure time per frame. |
NX_NUMBER |
s |
|
TOMOAcquisition_acc_frames_count |
TOMO.acquisition.acc_frames_count |
Number of frames in accumulation mode. |
NX_FLOAT |
||
TOMOAcquisition_accel_disp |
TOMO.acquisition.accel_disp |
Acceleration displacement for the rotation stage. |
NX_NUMBER |
mm |
|
TOMOAcquisition_beam_check |
TOMO.acquisition.beam_check |
Suspend scan if no beam is detected. |
NX_BOOLEAN |
||
TOMOAcquisition_camera_x_mot |
TOMO.acquisition.camera_x_mot |
Motor for moving the camera along the beam axis. |
NX_CHAR |
||
TOMOAcquisition_camera_acq_mode |
TOMO.acquisition.camera_acq_mode |
Acquisition mode of the camera. |
NX_CHAR |
||
TOMOAcquisition_camera_flip_horz |
TOMO.acquisition.camera_flip_horz |
Horizontal flip of the camera (left-right). |
NX_BOOLEAN |
||
TOMOAcquisition_camera_flip_vert |
TOMO.acquisition.camera_flip_vert |
Vertical flip of the camera (up-down). |
NX_BOOLEAN |
||
TOMOAcquisition_latency_time |
TOMO.acquisition.latency_time |
Extra readout time for the camera. |
NX_NUMBER |
s |
|
TOMOAcquisition_no_images_at_end |
TOMO.acquisition.no_images_at_end |
Capture of images at the end of scan disabled. |
NX_BOOLEAN |
||
TOMOAcquisition_no_flat_at_end |
TOMO.acquisition.no_flat_at_end |
Capture of flat images at the end of scan disabled. |
NX_BOOLEAN |
||
TOMOAcquisition_optic_name |
TOMO.acquisition.optic_name |
Name of optic used. |
NX_CHAR |
||
TOMOAcquisition_optic_type |
TOMO.acquisition.optic_type |
Type of optic used. |
NX_CHAR |
||
TOMOAcquisition_scintillator |
TOMO.acquisition.scintillator |
Name of the scintillator used. |
NX_CHAR |
||
TOMOAcquisition_duration |
TOMO.acquisition.duration |
Time it took for the acquisition sequence to run. |
NX_NUMBER |
s |
|
TOMOAcquisition_comment |
TOMO.acquisition.comment |
Additional comments. |
NX_CHAR |
||
TOMOAcquisitionZseries_z_mot |
TOMO.acquisition.zseries.z_mot |
Motor mnemonic for Z-axis. |
NX_CHAR |
||
TOMOAcquisitionZseries_z_start |
TOMO.acquisition.zseries.z_start |
Initial position of the motor on the Z-axis (first stage). |
NX_NUMBER |
mm |
|
TOMOAcquisitionZseries_z_delta |
TOMO.acquisition.zseries.z_delta |
Incremental value for the Z-axis stage. |
NX_NUMBER |
mm |
|
TOMOAcquisitionZseries_z_n_steps |
TOMO.acquisition.zseries.z_n_steps |
Number of steps for the Z-axis stage. |
NX_FLOAT |
||
TOMOAcquisitionZseries_duration |
TOMO.acquisition.zseries.duration |
Time it took for the acquisition z-series sequence to run. |
NX_NUMBER |
s |
|
TOMOAcquisition_random_motion_range |
TOMO.acquisition.random_motion_range |
Range of displacement for random motion. Expected as a list or tuple of two pixel values: y_displacement and z_displacement. |
NX_FLOAT |
pixel |
|
TOMOAcquisition_n_subtomo |
TOMO.acquisition.n_subtomo |
Number of subtomos acquired. A value greater than 1 indicates that the angular range is sweeped more than once and the angles are interlaced, improving progressively the angular sampling. |
NX_INT |
||
TOMOAcquisition_rotation_flat_position |
TOMO.acquisition.rotation_flat_position |
Rotation axis angle when the flat-field is acquired. |
NX_NUMBER |
deg |
|
TOMOReconstruction_angle_offset |
TOMO.reconstruction.angle_offset |
Angle offset for the reconstruction in degrees. |
NX_NUMBER |
deg |
|
TOMOReconstruction_angles_file |
TOMO.reconstruction.angles_file |
File path for angles used in reconstruction. |
NX_CHAR |
||
TOMOReconstruction_axis_correction_file |
TOMO.reconstruction.axis_correction_file |
File path for axis correction data. |
NX_CHAR |
||
TOMOReconstruction_centered_axis |
TOMO.reconstruction.centered_axis |
Whether the reconstruction is centered on the axis. |
NX_BOOLEAN |
||
TOMOReconstruction_clip_outer_circle |
TOMO.reconstruction.clip_outer_circle |
Whether to clip the outer circle of the reconstruction. |
NX_BOOLEAN |
||
TOMOReconstruction_cor_options |
TOMO.reconstruction.cor_options |
Options for center of rotation correction. |
NX_CHAR |
||
TOMOReconstruction_enable_halftomo |
TOMO.reconstruction.enable_halftomo |
Enable half-tomography mode. |
NX_BOOLEAN |
||
TOMOReconstruction_end_x |
TOMO.reconstruction.end_x |
End X coordinate (in pixels) for reconstruction. |
NX_INT |
||
TOMOReconstruction_end_y |
TOMO.reconstruction.end_y |
End Y coordinate (in pixels) for reconstruction. |
NX_INT |
||
TOMOReconstruction_end_z |
TOMO.reconstruction.end_z |
End Z coordinate (in pixels) for reconstruction. |
NX_INT |
||
TOMOReconstruction_fbp_filter_cutoff |
TOMO.reconstruction.fbp_filter_cutoff |
Cutoff frequency for the FBP filter. |
NX_FLOAT |
||
TOMOReconstruction_fbp_filter_type |
TOMO.reconstruction.fbp_filter_type |
Type of FBP filter used. |
NX_CHAR |
||
TOMOReconstruction_method |
TOMO.reconstruction.method |
Reconstruction method used (e.g., FBP, SIRT). |
NX_CHAR |
||
TOMOReconstruction_optim_algorithm |
TOMO.reconstruction.optim_algorithm |
Optimization algorithm used for reconstruction. |
NX_CHAR |
||
TOMOReconstruction_padding_type |
TOMO.reconstruction.padding_type |
Padding type for reconstruction. |
NX_CHAR |
||
TOMOReconstruction_preconditioning_filter |
TOMO.reconstruction.preconditioning_filter |
Preconditioning filter applied to the reconstruction. |
NX_CHAR |
||
TOMOReconstruction_rotation_axis_position |
TOMO.reconstruction.rotation_axis_position |
Position of the rotation axis in pixels. |
NX_FLOAT |
||
TOMOReconstruction_start_x |
TOMO.reconstruction.start_x |
Start X coordinate (in pixels) for reconstruction. |
NX_INT |
||
TOMOReconstruction_start_y |
TOMO.reconstruction.start_y |
Start Y coordinate (in pixels) for reconstruction. |
NX_INT |
||
TOMOReconstruction_start_z |
TOMO.reconstruction.start_z |
Start Z coordinate (in pixels) for reconstruction. |
NX_INT |
||
TOMOReconstruction_translation_movements_file |
TOMO.reconstruction.translation_movements_file |
File path for translation movements data. |
NX_CHAR |
||
TOMOReconstruction_weight_tv |
TOMO.reconstruction.weight_tv |
Total variation weight for reconstruction. |
NX_FLOAT |
||
TOMOReconstruction_voxel_size_x |
TOMO.reconstruction.voxel_size_x |
Voxel size in X direction. |
NX_NUMBER |
µm |
|
TOMOReconstruction_voxel_size_y |
TOMO.reconstruction.voxel_size_y |
Voxel size in Y direction. |
NX_NUMBER |
µm |
|
TOMOReconstruction_voxel_size_z |
TOMO.reconstruction.voxel_size_z |
Voxel size in Z direction. |
NX_NUMBER |
µm |
|
TOMOReconstruction_nb_voxel_x |
TOMO.reconstruction.nb_voxel_x |
Reconstructed volume length in pixels (x-direction). |
NX_FLOAT |
||
TOMOReconstruction_nb_voxel_y |
TOMO.reconstruction.nb_voxel_y |
Reconstructed volume length in pixels (y-direction). |
NX_FLOAT |
||
TOMOReconstruction_nb_voxel_z |
TOMO.reconstruction.nb_voxel_z |
Reconstructed volume length in pixels (z-direction). |
NX_FLOAT |
||
TOMOReconstructionPhase_ctf_advanced_params |
TOMO.reconstruction.phase.ctf_advanced_params |
Advanced parameters for CTF phase retrieval. |
NX_CHAR |
||
TOMOReconstructionPhase_ctf_geometry |
TOMO.reconstruction.phase.ctf_geometry |
CTF phase retrieval geometry. |
NX_CHAR |
||
TOMOReconstructionPhase_delta_beta |
TOMO.reconstruction.phase.delta_beta |
Delta-beta ratio for phase retrieval. |
NX_FLOAT |
||
TOMOReconstructionPhase_detector_sample_distance |
TOMO.reconstruction.phase.detector_sample_distance |
Detector-sample distance for phase retrieval. |
NX_NUMBER |
mm |
|
TOMOReconstructionPhase_method |
TOMO.reconstruction.phase.method |
Phase retrieval method used. |
NX_CHAR |
||
TOMOReconstructionPhase_padding_type |
TOMO.reconstruction.phase.padding_type |
Padding type for phase retrieval. |
NX_CHAR |
||
TOMOReconstructionPhase_unsharp_coeff |
TOMO.reconstruction.phase.unsharp_coeff |
Unsharp coefficient for phase retrieval. |
NX_FLOAT |
||
TOMOReconstructionPhase_unsharp_method |
TOMO.reconstruction.phase.unsharp_method |
Unsharp method used for phase retrieval. |
NX_CHAR |
||
TOMOReconstructionPhase_unsharp_sigma |
TOMO.reconstruction.phase.unsharp_sigma |
Unsharp sigma for phase retrieval. |
NX_FLOAT |
||
TOMO_experiment_type |
TOMO.experiment_type |
Type of experiment conducted. |
NX_CHAR |
||
TOMO_ftomo_par |
TOMO.ftomo_par |
Parameters for Fourier-tomography. |
NX_CHAR |
||
TOMO_xshutter_time |
TOMO.xshutter_time |
Shutter closing time for the detector. |
NX_NUMBER |
ms |
|
TOMO_images_per_step |
TOMO.images_per_step |
Number of images captured per step. |
NX_FLOAT |
||
TOMO_interlaced |
TOMO.interlaced |
Enable interlaced scanning. |
NX_FLOAT |
||
TOMO_nested |
TOMO.nested |
Enable nested scanning for topotomo. |
NX_FLOAT |
||
TOMO_save_separate_dark_image |
TOMO.save_separate_dark_image |
Save separate dark field images. |
NX_FLOAT |
||
TOMO_auto_update_ref |
TOMO.auto_update_ref |
Automatically update references if set. |
NX_FLOAT |
||
TOMO_images_at_end_as_quali |
TOMO.images_at_end_as_quali |
Use images at end of scan for quality check. |
NX_FLOAT |
||
TOMO_live_correction |
TOMO.live_correction |
Enable live correction of dark fields. |
NX_FLOAT |
||
TOMO_mono_tune_on_ref |
TOMO.mono_tune_on_ref |
Tune monochromator before capturing flat images. |
NX_FLOAT |
||
TOMO_no_accel_corr |
TOMO.no_accel_corr |
Disable acceleration correction. |
NX_FLOAT |
||
TOMO_open_slits_on_quali |
TOMO.open_slits_on_quali |
Open slits for quality check images. |
NX_FLOAT |
||
TOMO_optics_eye_piece |
TOMO.optics_eye_piece |
Magnification factor from optics. |
NX_FLOAT |
||
TOMO_readout_time |
TOMO.readout_time |
Readout time of the camera. |
NX_NUMBER |
s |
|
TOMO_flat_power |
TOMO.flat_power |
Power of the motor for capturing flat images. |
NX_FLOAT |
||
TOMO_rounding_correction |
TOMO.rounding_correction |
Apply rounding corrections to projections. |
NX_FLOAT |
||
TOMO_safe_time |
TOMO.safe_time |
Extra time to ensure safe readout. |
NX_NUMBER |
s |
|
TOMO_shift_turns |
TOMO.shift_turns |
Number of rotation turns to shift. |
NX_FLOAT |
||
TOMO_speed_corr_factor |
TOMO.speed_corr_factor |
Correction factor for rotation speed. |
NX_FLOAT |
||
TOMO_mono_tune_on_start |
TOMO.mono_tune_on_start |
Tune monochromator before scan starts. |
NX_FLOAT |
||
TOMO_soft_version |
TOMO.soft_version |
Software version, hostname, and path. |
NX_CHAR |
||
TOMO_vacuum_value |
TOMO.vacuum_value |
Vacuum measurement values. |
NX_FLOAT |
||
TOMO_vacuum_name |
TOMO.vacuum_name |
Vacuum measurement names. |
NX_CHAR |
||
TOMO_sx0 |
TOMO.sx0 |
Focus position on X-axis. |
NX_NUMBER |
mm |
|
TOMO_camera_time |
TOMO.camera_time |
Integration time of the camera. |
NX_NUMBER |
s |
|
TOMO_i0 |
TOMO.i0 |
Incident beam intensity. |
NX_FLOAT |
||
TOMO_it |
TOMO.it |
Transmitted beam intensity. |
NX_FLOAT |
||
TOMO_interlaced_roundtrip |
TOMO.interlaced_roundtrip |
Interlaced scanning: same or opposite directions. |
NX_FLOAT |
||
TOMO_scanning_mode |
TOMO.scanning_mode |
Mode of scanning. |
NX_CHAR |
||
TOMO_x_pixel_n |
TOMO.x_pixel_n |
Number of pixels in the x-direction. |
NX_FLOAT |
||
TOMO_y_pixel_n |
TOMO.y_pixel_n |
Number of pixels in the y-direction. |
NX_FLOAT |
||
TOMO_surface_dose |
TOMO.surface_dose |
Radiation dose at the surface. |
NX_NUMBER |
Gy/s |
|
TOMO_voi_dose |
TOMO.voi_dose |
Radiation dose within the volume of interest (VOI). |
NX_NUMBER |
Gy/s |
|
TOMO_total_voi_dose |
TOMO.total_voi_dose |
Total accumulated dose within the volume of interest (VOI). |
NX_NUMBER |
kGy |
|
TOMO_reference_description |
TOMO.reference_description |
Approach used to generate reference frames for flat field subtraction. |
NX_CHAR |
||
TOMO_subframe_nb |
TOMO.subframe_nb |
Number of subframes. |
NX_FLOAT |
||
TOMO_idNames |
TOMO.idNames |
Insertion device for ID beamlines. |
NX_CHAR |
||
TOMO_scanRadix |
TOMO.scanRadix |
Common prefix for scan datasets, useful for locating original radiographs. |
NX_CHAR |
||
TOMO_propagationDistance |
TOMO.propagationDistance |
Distance between the sample and detector. |
NX_NUMBER |
mm |
|
TOMO_xStages |
TOMO.xStages |
Number of scans in x-direction; allows 3D mosaic scans. |
NX_FLOAT |
||
TOMO_yStages |
TOMO.yStages |
Number of scans in y-direction; allows 3D mosaic scans. |
NX_FLOAT |
||
TOMO_zStages |
TOMO.zStages |
Number of scans in z-direction; allows 3D mosaic scans. |
NX_FLOAT |
||
TOMO_min32to16bits |
TOMO.min32to16bits |
Min value for scaling 32-bit float to 16-bit unsigned integer. |
NX_FLOAT |
||
TOMO_max32to16bits |
TOMO.max32to16bits |
Max value for scaling 32-bit float to 16-bit unsigned integer. |
NX_FLOAT |
||
TOMO_jp2CompressRatio |
TOMO.jp2CompressRatio |
JPEG2000 compression ratio (default ~10x). |
NX_FLOAT |
||
xrf_definition |
WAXS.definition |
Technique used to collect this dataset. |
NX_CHAR |