Table Description:
This table is available for ADQL queries and through the TAP endpoint.
Resource Description:
This is a re-publication the Gaia DR3 RP/BP spectra in the IVOA Spectral Data Model. It presents the continous spectra in sampled form, using a Monte Carlo scheme to decorrelate errors, elaborated in this resource's reference URL. The underlying tables are also available for querying through TAP, which opens some powerful methods for mass-analysing the data.
For a list of all services and tables belonging to this table's resource, see Information on resource 'Gaia DR3 RP/BP (XP) Monte Carlo sampled spectra'
This table has an associated publication. If you use data from it, it may be appropriate to reference 2022arXiv220800211G (ADS BibTeX entry for the publication) either in addition to or instead of the service reference.
To cite the table as such, we suggest the following BibTeX entry:
![[Operator logo]](/static/img/logo_medium.png){kind=logo}
@MISC{vo:gdr3spec_ssameta,
year=2022,
title={Gaia DR3 RP/BP (XP) Monte Carlo sampled spectra},
author={Demleitner, M. and Andrae, R.},
url={http://dc.zah.uni-heidelberg.de/tableinfo/gdr3spec.ssameta},
howpublished={{VO} resource provided by the {GAVO} Data Center},
doi = {10.21938/W:hWbPah3wBabuqewQULTA}
}
This data is derived from public Gaia DR3 data. Please take note of ESAC's guide on how to acknowledge and cite Gaia results.
In Gaia's DR3, most BP/RP spectra come in “continuous” form only, that is, as coefficients of Gauss-Hermite polynomials. These can be turned into a “sampled” representation using GaiaXPy; however, since the errors are given in the form of covariance matrices for the polynomial coefficients, the errors in the resulting spectra are strongly correleated, which can sometimes result in artefacts in the signal.
To get approximately decorrelated errors and hence sampled spectra usable with less caution, we apply a scheme of Monte Carlo-sampling different realisations from the error model of the coefficients. Specifically, given the covariance matrix C defined through the Xp_coefficient_errors and Xp_coefficient_correlations column in the DR3 xp_continuous_mean_spectrum table, and noting that for a unit normal-distributed random variable u
holds (⟨x⟩ denotes the expectation), we can re-write the covariance matrix using a Cholesky decomposition into LLT as
Hence, x = Lu is a realisation of the errors satisfying the covariance matrix. To come up with a sampled spectrum, we now draw (in this case) 10 samples of the coefficients and have GaiaXPy convert them to a sampled spectrum.
The source code we used for that is dr3_to_mcsampled.py.
To be on the conservative side of the resolution and the bandwidth, and also to keep storage requirements modest, we have chosen a relatively rough grid over the optical band, that is, bins of 10 nm over the spectral range between 400 and 800 nm.
Sorted by DB column index. [Sort alphabetically]
| Name | Table Head | Description | Unit | UCD |
|---|---|---|---|---|
| phot_g_mean_mag | m_G | Mean magnitude in the G band. This is computed from the G-band mean flux applying the magnitude zero-point in the Vega scale. To obtain error estimates, see phot_g_mean_flux_over_error. | mag | phot.mag;em.opt;stat.mean |
| phot_bp_mean_mag | Mag BP | Mean magnitude in the integrated BP band. This is computed from the BP-band mean flux applying the magnitude zero-point in the Vega scale. To obtain error estimates, see phot_bp_mean_flux_over_error. | mag | phot.mag;em.opt.B |
| phot_rp_mean_mag | Mag RP | Mean magnitude in the integrated RP band. This is computed from the RP-band mean flux applying the magnitude zero-point in the Vega scale. To obtain error estimates, see phot_rp_mean_flux_over_error. | mag | phot.mag;em.opt.R |
| source_id | Source Id | Gaia DR3 unique source identifier. Note that this *cannot* be matched against the DR1 or DR2 source_ids. [Note id] | N/A | meta.id;meta.main |
| ra | RA (ICRS) | Barycentric Right Ascension in ICRS at epoch J2016.0 | deg | pos.eq.ra;meta.main |
| dec | Dec (ICRS) | Barycentric Declination in ICRS at epoch J2016.0 | deg | pos.eq.dec;meta.main |
| preview | Preview | URL of a preview for the dataset | N/A | meta.ref.url;meta.preview |
| accref | Product key | Access key for the data | N/A | meta.ref.url;meta.dataset |
| owner | Owner | Owner of the data | N/A | N/A |
| embargo | Embargo ends | Date the data will become/became public | yr | N/A |
| mime | Type | MIME type of the file served | N/A | meta.code.mime |
| accsize | File size | Size of the data in bytes | byte | N/A |
| ssa_dstitle | Title | A compact and descriptive designation of the dataset. | N/A | meta.title;meta.dataset |
| ssa_creatorDID | C. DID | Dataset identifier assigned by the creator | N/A | meta.id |
| ssa_pubDID | P. DID | Dataset identifier assigned by the publisher | N/A | meta.ref.ivoid |
| ssa_cdate | Proc. Date | Processing/Creation date | N/A | time;meta.dataset |
| ssa_pdate | Pub. Date | Date last published. | N/A | N/A |
| ssa_bandpass | Bandpass | Bandpass (i.e., rough spectral location) of this dataset; this should be the most appropriate term from the vocabulary http://www.ivoa.net/rdf/messenger. | N/A | instr.bandpass |
| ssa_cversion | C. Version | Creator assigned version for this dataset (will be incremented when this particular item is changed). | N/A | meta.version;meta.dataset |
| ssa_targname | Object | Common name of object observed. | N/A | meta.id;src |
| ssa_targclass | Ob. cls | Object class (star, QSO,...; use Simbad object classification http://simbad.u-strasbg.fr/simbad/sim-display?data=otypes if at all possible) | N/A | src.class |
| ssa_redshift | z | Redshift of target object | N/A | src.redshift |
| ssa_targetpos | Obj. pos | Equatorial (ICRS) position of the target object. | N/A | pos.eq;src |
| ssa_snr | SNR | Signal-to-noise ratio estimated for this dataset | N/A | stat.snr |
| ssa_location | Location | ICRS location of aperture center | deg | pos.eq |
| ssa_aperture | Aperture | Angular diameter of aperture | deg | phys.angSize;instr.fov |
| ssa_dateObs | Date Obs. | Midpoint of exposure (MJD) | d | time.epoch |
| ssa_timeExt | Exp. Time | Exposure duration | s | time.duration |
| ssa_specmid | Mid. Band | Midpoint of region covered in this dataset | m | instr.bandpass |
| ssa_specext | Bandwidth | Width of the spectrum | m | instr.bandwidth |
| ssa_specstart | Band start | Lower value of spectral coordinate | m | em.wl;stat.min |
| ssa_specend | Band end | Upper value of spectral coordinate | m | em.wl;stat.max |
| ssa_length | Length | Number of points in the spectrum | N/A | N/A |
| ssa_model | Model | Data model name and version | N/A | N/A |
| ssa_csysName | Sys | System RA and Dec are given in | N/A | N/A |
| ssa_timeSI | [Time] | Time conversion factor in Osuna-Salgado convention. | N/A | N/A |
| ssa_spectralSI | [Spectral] | Spectral conversion factor in Osuna-Salgado convention | N/A | N/A |
| ssa_spectralucd | UCD(spectral) | UCD of the spectral column in the spectra served; when you have wavelengths, use em.wl for vacuum wavelengths, em.wl;obs.atmos for air wavelengths. | N/A | meta.ucd |
| ssa_spectralunit | unit(spectral) | Unit of the spectral column | N/A | meta.unit |
| ssa_fluxSI | [Flux] | Flux/magnitude conversion factor in Osuna-Salgado convention | N/A | N/A |
| ssa_fluxucd | UCD(flux) | UCD of the flux column | N/A | meta.ucd |
| ssa_fluxunit | unit(flux) | Unit of the flux column | N/A | meta.unit |
| ssa_dstype | Data type | Type of data (spectrum, time series, etc) | N/A | N/A |
| ssa_publisher | Publisher | Publisher of the datasets included here. | N/A | meta.curation |
| ssa_creator | Creator | Creator of the datasets included here. | N/A | N/A |
| ssa_collection | Collection | A short handle naming the collection this spectrum belongs to. | N/A | N/A |
| ssa_instrument | Instrument | Instrument or code used to produce these datasets | N/A | meta.id;instr |
| ssa_datasource | Src | Method of generation for the data (one of survey, pointed, theory, custom, artificial). | N/A | N/A |
| ssa_creationtype | Using | Process used to produce the data (archival, cutout, filtered, mosaic, projection, spectralExtraction, or catalogExtraction) | N/A | N/A |
| ssa_reference | Ref. | URL or bibcode of a publication describing this data. | N/A | meta.bib.bibcode |
| ssa_fluxStatError | Err. flux | Statistical error in flux | N/A | stat.error;phot.flux.density;em |
| ssa_fluxSysError | Sys. Err flux | Systematic error in flux | N/A | stat.error.sys;phot.flux.density;em |
| ssa_fluxcalib | Calib Flux | Type of flux calibration (ABSOLUTE, CALIBRATED, RELATIVE, NORMALIZED, or UNCALIBRATED). | N/A | N/A |
| ssa_binSize | Spect. Bin | Bin size in wavelength | m | em.wl;spect.binSize |
| ssa_spectStatError | Err. Spect | Statistical error in wavelength | m | stat.error;em |
| ssa_spectSysError | Sys. Err. Spect | Systematic error in wavelength | m | stat.error.sys;em |
| ssa_speccalib | Calib. Spect. | Type of wavelength calibration | N/A | meta.code.qual |
| ssa_specres | Spec. Res. | Resolution (in meters of wavelength) on the spectral axis | m | spect.resolution;em.wl |
| ssa_spaceError | Err. Spc | Statistical error in position | deg | stat.error;pos.eq |
| ssa_spaceCalib | Calib. Spc | Type of calibration in spatial coordinates | N/A | meta.code.qual |
| ssa_spaceRes | Res. Spc | Spatial resolution of data | deg | pos.angResolution |
| ssa_region | Coverage | Rough coverage based on location and aperture | N/A | N/A |
Columns that are parts of indices are marked like this.
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