-
PADC TAP Server on voparis-tap-planeto.obspm.fr TAP service
The PADC TAP Server on voparis-tap-planeto.obspm.fr's TAP end point. The Table Access
Protocol (TAP) lets you execute queries against our database tables,
inspect various metadata, and upload your own data. It is thus the
VO's premier way to access public data holdings.
Tables exposed through this endpoint include: epn_core from the apis schema, epn_core from the basecom schema, epn_core, observatories from the bdip schema, epn_core from the crism_speclib schema, epn_core from the dynastvo schema, epn_core from the exoplanet schema, epn_core from the gmap schema, epn_core from the hst_planeto schema, epn_core from the iks schema, epn_core from the lunar_craters schema, epn_core from the m4ast schema, epn_core from the mars_craters schema, epn_core from the mars_craters_lagain schema, epn_core from the mercury_craters schema, epn_core from the meteor_showers schema, epn_core from the moonsprop schema, epn_core from the planets schema, epn_core from the spectro_asteroids schema, epn_core from the spectro_planets schema, epn_core from the spectro_stars schema, columns, groups, key_columns, keys, schemas, tables from the tap_schema schema, epn_core from the titan_profiles schema, epn_core from the tnosarecool schema, epn_core from the usgs_wms schema, epn_core from the venus_craters schema, epn_core from the vims_satellites schema, epn_core from the voccdb schema, epn_core from the vvex schema.
-
Auroral Planetary Imaging and Spectroscopy
EpnCore table for APIS service
-
BDIP Observatory List
Service Info
BDIP Observatory List
---------------------
This BDIP images were observed from the observatories listed
below. However, some observatories have not been identified
in the metadata attached to the images. The list provided here
only presents the identified observatories.
IAU Observatory Codes
^^^^^^^^^^^^^^^^^^^^^
The *IAU Observatory Code* columns contains the observatory
identifier maintained by the Minor Planet Center (MPC) and
available at `IMCCE <http://vo.imcce.fr/webservices/data/displayIAUObsCodes.php>`_
or at `MPC <https://minorplanetcenter.net//iau/lists/ObsCodes.html>`_.
Unknown Observatory Codes
^^^^^^^^^^^^^^^^^^^^^^^^^
Some *BDIP observatory codes* could not be mapped to any known
observatory. Those codes are: ``J``, ``KW``, ``LON``, ``MD``,
``MOCL``, ``MUN``, ``RO`` and ``VS``. When no observatory code
were present, the ``UNK`` (Unknown) code is used. These codes
are not listed in the table below.
-
CRISM spectral library
This service provides access to the spectral library in support of
the CRISM experiment on Mars Reconnaissance Orbiter. This is a
redesigned version of the library once distributed by the PDS
Geosciences node, with data files provided as VOTable (the native
version was available at:
http://pds-geosciences.wustl.edu/mro/mro-m-crism-4-speclib-v1/mrocr_90xx/
Reference: Murchie et al (2007) Compact Reconnaissance Imaging
Spectrometer for Mars (CRISM) on Mars Reconnaissance Orbiter (MRO).
JGR Planets, 112:E05S03
-
Cassini VIMS
The Visual and Infrared Mapping Spectrometer (VIMS) instrument
onboard the Cassini spacecraft observed the system of Saturn,
acquiring spectral cubes in the range 0.4-5.2 microns. This service
focuses on Saturn satellites, and provides access to calibrated and
ancillary data, computed as described here:
https://vims.univ-nantes.fr/info/isis-calibration. It also provides
direct links to a larger web site with previews.
-
Characteristics of Planets
Main characteristics of Solar System planets. Data are included in
the table, which includes non-standard EPN-TAP parameters. Data are
retrieved from Archinal et al 2018 (IAU report 2015,
2018CeMDA.130...22A) [radii] and Cox et al 2000 (Allen's astrophysical
quantities, 2000asqu.book.....C) [masses, heliocentric distances, and
rotation periods].
-
DynastVO ephemeris service
This database displays calculated orbital parameters for small bodies
-
Exoplanet Catalog
Encyclopedia of extrasolar planet
-
GMAP
GMap provides planetary geological maps of different Solar System
bodies, developed by an open community, reviewed by scientists. GMap
inherits its data model from Planmap, most of the maps provide
morphological information, some provide stratigraphic or compositional
information too. Each original data packages provided is a collection
of vector, raster, and, in some cases, 3D models. In this EPN-TAP
service, the data records (`granule_uid`) refer to each of the data
files in the whole of GMAP archive, grouped by (`granule_gid`) the
data package --map-- they compose.
-
IKS
Measurements of comet Halley in the spectral channel of IKS on board
the Vega-1 spacecraft. Data are retrieved from the PDS Small Bodies
Node data set (2011 reformatted version) and updated. The data set
consists in 101 tables providing the radiance spectrum of comet Halley
from various distances, plus two composite spectra. For details and
further references, see: Combes M. et al., 1988, The 2.5-12 micron
Spectrum of Comet Halley from the IKS-VEGA Experiment, Icarus, 76,
404-436 [1988Icar...76..404C]
-
Lunar craters (demo)
Lunar crater catalogue
-
M4AST
compiled database for asteroid spectra in the visible and NIR regions
-
Mars Craters
The Mars Crater Catalog by S.J. Robbins was generated from THEMIS
Daytime IR and Viking MDIM 2.1 global mosaics of Mars. Craters were
selected using 5 points along the rim. The table is statistically
complete to the diameter of ~1.0 km. The table contains morphologic
and morphometric data for craters with diameter larger than 3 km. The
Prometheus basin has been excluded from the Catalog due to technical
issues.
Reference: "A New Global Database of Mars Impact Craters ≥1 km: (1)
Database Creation, Properties, and Parameters", S.J. Robbins and B.M.
Hynek, Journal of Geophysical Research - Planets, v.117. (2012) DOI:
10.1029/2011JE003966
-
Mars Craters Lagain
A catalogue of Mars craters by Lagain et al. (2020), extending the previous
catalogue from Robbins and Hynek (2012, DOI:10.1029/2011JE003966). 185 craters
were added by Lagain, the object IDs are compatible with the previous work.
Reference: "Impact cratering rate consistency test from ages of layered ejecta on Mars",
Lagain et al., Planetary and Space Science, v.180. (2020)
DOI: 10.1016/j.pss.2019.104755
-
Mercury craters
Mercury crater catalogue
-
Planetary Images Database
Observatory names
-
Planetary Images Database
Planetary Images Database
-
Predictions of stellar occultations by the main planetary satellites
The VOccDB database provides prediction and parameters of stellar
occultations by the main planetary satellites. Observations of a
stellar occultations help to better determine the size and the shape
of the occulting body, as well as its astrometric position at the
milli-arcsecond level precision. Only the main moons of giant planets
Jupiter, Saturn, Uranus and Neptune are considered in the event
prediction database. Predictions are provided over period 2023-2032,
up to visual magnitude 12 for the biggest satellites, and magnitude 14
for other satellites. For each stellar occultation event prediction,
the database provides circumstances and observational data, date and
timing of the occultation, star position and magnitude, excepted
duration, etc.
-
Properties of natural satellites
This service provides the physical and dynamical characteristics of
natural satellites in the Solar System: size, mass, rotational
properties, magnitude and albedo, orbital elements. These quantities
are taken from various publications listed under the bib_reference
parameter. These data will be updated as new values are published.
-
Spectra of asteroids from VizieR
This service provides a compilation of spectra of asteroids in the
visible and NIR range. It is composed of various libraries distributed
as VizieR catalogues. Reformatted VOtable or fits versions are
provided with thumbnails. Ephemeris data are retrieved from Miriade
(IMCCE) for the reference date when possible.
-
Spectra of planets
This service provides a compilation of global spectra of planets and
satellites in the visible and NIR range, for quick reference purpose.
It is made from various libraries, including the
Tohoku-Hiroshima-Nagoya Planet Spectra Library (Lundock et al 2009)
and spectra from a USGS web site (R. Clark). Reformatted VOtable
versions are provided together with links to the original data.
-
Stellar spectra
The stellar spectra service is a compilation of several libraries
distributed by large observatories, which are intended to calibrate
telescopic observations. It currently provides access to two libraries
of reference stars distributed by ESO (composite spectra:
https://www.eso.org/sci/observing/tools/standards/IR_spectral_library.html)
and NASA IRTF (observations from SpeX:
http://irtfweb.ifa.hawaii.edu/~spex/IRTF_Spectral_Library/References_files/All.html).
-
TNOs fluxes measured from space
This service lists TNO thermal properties as derived mostly from
Spitzer and Herschel observations.
-
USGS_WMS
Catalogue of USGS Astrogeology WMS Map Layers
-
VOEvent meteor shower service
The ephemeris were produced by simulating the ejection of meteoroids
from the sunlit hemisphere of cometary nuclei, typically from 0 to 3
au, followed by the propagation of orbits of meteoroids in the Solar
System, taking into account the gravity of the Sun, the 8 planets,
Pluto, and the Moon, as well as the radiation pressure and the
Poynting-Robertson drag. Note that asteroid parent bodies were
considered as active (i.e. comet-like bodies) even if they are not
active today. The showers are predicted when a planet enters a large
enough set of meteoroids, at a distance less than typically 0.01 au.
See Vaubaillon J., Colas F., Jorda L. 2005 A new method to predict
meteor showers. I. Description of the model, Astronomy and
Astrophysics, Volume 439/2 p.751-760, as well as: Vaubaillon J. 2017 A
confidence index for forecasting of meteor showers, Planetary and
Space Science, Volume 143 p.78-82
-
Venus craters
Venus crater catalogue
![[operator logo]](/static/img/logo_medium.png){kind=logo}