The first of two joint ESA-Roscosmos missions to Mars has begun a seven-month journey to the Red Planet, where it will address unsolved mysteries of the planet’s atmosphere that could indicate present-day geological – or even biological – activity.
- The Trace Gas Orbiter (TGO) and Schiaparelli will travel to Mars together before separating on 16 October at distance of 900 000 km from the planet. Then, on 19 October, Schiaparelli will enter the martian atmosphere, descending to the surface in just under six minutes.
- TGO will image features on the martian surface that may be related to trace-gas sources such as volcanoes. In addition, it will be able to detect buried water-ice deposits, which, along with locations identified as sources of the trace gases, could influence the choice of landing sites of future missions.
- The spacecraft was launched on a Proton-M rocket operated by Russia’s Roscosmos from Baikonur, Kazakhstan. ExoMars 2016 is the first of a two-phase of ExoMars (Exobiology on Mars) program.
About ExoMars
- The ExoMars programme is a joint endeavour between ESA and the Russian space agency, Roscosmos.
- The primary goal of the ExoMars programme is to address the question of whether life has ever existed on Mars. This relates to its name, with the ‘exo’ referring to the study of exobiology – the possible existence of life beyond Earth (sometimes also referred to as astrobiology).
- The programme comprises two missions. The first will be launched in March 2016 and consists of the Trace Gas Orbiter (TGO) and Schiaparelli, an entry, descent and landing demonstrator module. The second is planned for launch in 2018 and comprises a rover and surface science platform.
- TGO’s main objectives are to search for evidence of methane and other trace atmospheric gases that could be signatures of active biological or geological processes. Schiaparelli will test key technologies in preparation for ESA’s contribution to subsequent missions to Mars.
- The 2018 rover that will carry a drill and a suite of instruments dedicated to exobiology and geochemistry research. The 2016 TGO will act as a relay for the 2018 mission.