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Gaia
3D image of Gaia spacraft
Artist's impression of the Gaia spacecraft
Mission type Astrometric observatory
Operator ESA
COSPAR ID 2013-074A
SATCAT no. 39479
Website sci.esa.int/gaia/
Mission duration planned: 5 years; possible extension by one to four years
elapsed: 4 years, 10 months and 16 days
Spacecraft properties
Manufacturer EADS Astrium
e2v Technologies
Launch mass 2,029 kg (4,473 lb)
Dry mass 1,392 kg (3,069 lb)
Payload mass 710 kg (1,570 lb)
Dimensions 4.6 m × 2.3 m (15.1 ft × 7.5 ft)
Power 1910 watts
Start of mission
Launch date 19 December 2013, 09:12:14 UTC
Rocket Soyuz ST-B/Fregat-MT
Launch site Kourou ELS
Contractor Arianespace
Orbital parameters
Reference system Sun–Earth L2
Regime Lissajous orbit
Periapsis 263,000 km (163,000 mi)
Apoapsis 707,000 km (439,000 mi)
Period 180 days
Epoch 2014
Main telescope
Type Three-mirror anastigmat
Diameter 1.45 m × 0.5 m (4.8 ft × 1.6 ft)
Collecting area 0.7 m2
Transponders
Band S Band (TT&C support)
X Band (data acquisition)
Bandwidth few kbit/s down & up (S Band)
3-8 Mbit/s download (X Band)
Instruments
ASTRO: Astrometric instrument
BP/RP: Photometric instrument
RVS: Radial Velocity Spectrometer
Gaia mission insignia
ESA astrophysics insignia for Gaia

Gaia is a space observatory of the European Space Agency (ESA) designed for astrometry: measuring the positions and distances of stars with unprecedented precision. The mission aims to construct by far the largest and most precise 3D space catalog ever made, totalling approximately 1 billion astronomical objects, mainly stars, but also planets, comets, asteroids and quasars among others.

The spacecraft will monitor each of its target objects about 70 times over a period of five years to study the precise position and motion of each target. The spacecraft has enough consumables to operate for approximately nine years, if its detectors are not degrading as fast as initially expected. The mission could therefore be extended. The Gaia targets represent approximately 1% of the Milky Way population with all stars brighter than magnitude 20 in a broad photometric band that covers most of the visual range. Additionally, Gaia is expected to detect thousands to tens of thousands of Jupiter-sized exoplanets beyond the Solar System, 500,000 quasars and tens of thousands of new asteroids and comets within the Solar System.

Gaia will create a precise three-dimensional map of astronomical objects throughout the Milky Way and map their motions, which encode the origin and subsequent evolution of the Milky Way. The spectrophotometric measurements will provide the detailed physical properties of all stars observed, characterizing their luminosity, effective temperature, gravity and elemental composition. This massive stellar census will provide the basic observational data to analyze a wide range of important questions related to the origin, structure, and evolutionary history of our galaxy.

Successor to the Hipparcos mission, the telescope is part of ESA's Horizon 2000+ long-term scientific program. Gaia was launched on 19 December 2013 by Arianespace using a Soyuz ST-B/Fregat-MT rocket flying from Kourou in French Guiana. The spacecraft currently operates in a Lissajous orbit around the SunEarth L2 Lagrangian point.

History