This schema contains data re-published from the official
Gaia mirrors (such as ivo://uni-heidelberg.de/gaia/tap) either to
support combining its data with local tables (the various Xlite tables)
or to make the data more accessible to VO clients (e.g., epoch fluxes).
This schema contains data re-published from the official
Gaia mirrors (such as ivo://uni-heidelberg.de/gaia/tap) either to
support combining its data with local tables (the various Xlite tables)
or to make the data more accessible to VO clients (e.g., epoch fluxes).
Other Gaia-related data is found in, among others, the gdr3mock,
gdr3spec, gedr3auto, gedr3dist, gedr3mock, and gedr3spur schemas.
This service returns the most important Gaia DR3 gaia_source columns
together with robust geometric and photogeometric distances for the
~1.47 billion objects in Bailer-Jones et al's distance catalogue.
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.
This catalog contains data on the Galactic population of 82 confirmed
X-ray pulsars in high-mass X-ray binary (HMXB) systems, classified
into 18 persistent and 64 transient sources. Key parameters include
spin periods, spin evolution (local and global trends), orbital
periods, X-ray luminosities, magnetic fields, distances, and detailed
companion star characteristics. The data have been compiled through
cross-matching with recent HMXB catalogs and databases such as Fortin
et al. (2023), Neumann et al. (2023), and Krivonos et al. (2022),
supplemented with literature and SIMBAD database analysis. The catalog
aims to support studies on stellar evolution, accretion processes, and
binary dynamics.
WFAU, Institute for Astronomy, University of Edinburgh
Description:
The Galaxy Evolution Explorer (GALEX) satellite is a NASA mission led by the California Institute of Technology to investigate how star formation in galaxies evolved from the early Universe up to the present. GALEX uses microchannel plate detectors to obtain direct images in the near-UV (NUV) and far-UV (FUV) and a grism to disperse light for low resolution spectroscopy
