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Solar System and Robotic Exploration Missions Section (SCI-FMP)

The Solar System and Robotic Exploration Missions Section (SCI-FMP), as part of the Advanced Payload and Mission Concepts Office, is responsible for system studies (phase 0/A) of science missions in the fields of Solar System and Planetary Exploration missions, which are candidates for the Science Programme. SCI-FMP is also supporting planning, monitoring and development of associated technology developments.

SCI-FMP has the following key tasks:

  • Management of Solar System missions in phase 0/A
  • Definition of mission and system requirements for internal and industrial studies
  • Definition of the corresponding Technology Development Plans
  • Development of specific related technologies required for future missions, in close co-operation with the Technology Preparation Section (SCI-FT)
  • Conducting Technology Reference Studies in preparation of future Calls for Missions
  • Interface to external entities/international partners when relevant
  • Definition and coordination of required support from ESA's Directorate of Technical and Quality Management (TEC) and ESA's European Space Operations Centre (ESOC) for the assessment studies

The Solar System and Robotic Exploration Missions Section provides the Study Managers for the mission studies, as well as Technical Officers for some technology development activities related to the Section’s tasks.

SUPPORTING THE COSMIC VISION PROGRAMME

The Section supports the technical and programmatic evaluation of Solar System-related Cosmic Vision proposals, submitted by the scientific community to ESA. The following calls have been supported so far:

The initial mission proposals selected from these calls are typically studied in the ESA Concurrent Design Facility (CDF) and followed by industrial studies. The following list of past and current Solar System science studies have been performed in close cooperation with the external science study teams, and industrial study teams:

  • THOR (M-class, 2014 call), a mission in a high elliptical orbit exploring plasma energization in space turbulence. This M4 mission candidate has been selected for an on-going industrial phase A study, in competition with the XIPE and ARIEL.
  • SMILE (joint ESA – CAS call),  a small mission investigating the Solar wind – Magnetosphere interactions in a high elliptical orbit. This mission has been selected for an industrial study phase to be started by end 2016.
  • Laplace (L-class, 2007 call), later renamed to EJSM (in cooperation with NASA) and during the reformulation phase in 2011 renamed to JUpiter ICy moon Explorer - JUICE: An in-depth study of Jupiter and its moons with a focus on the formation of the Jovian system, how the system works, and the possibility that Jupiter’s moon, Europa, is habitable. JUICE was selected as the first large (L1) mission in ESA's Cosmic Vision programme in 2012.
  • MarcoPolo-R (M-class, 2010 M3 call): A mission to return a pristine sample of material from a primitive near-Earth asteroid for detailed analysis in ground-based laboratories. (See link to 'Four candidates selected for next medium-class mission in ESA's Cosmic Vision'.) Following the selection of PLATO for M3 Marco Polo-R was not continuing into the definition phase.
  • Cross-Scale (M-class, 2007 M1/M2 call): A mission to revolutionise our understanding of three fundamental physical processes: shock waves, magnetic reconnection, and turbulence, which are associated with some of the most energetic phenomena in the Universe, from radio galaxy jets, supernovae remnants and cosmic rays to solar flares and magnetic storms. In February 2010, Cross-Scale was not selected to continue into the definition phase.
  • Marco Polo (M-class, 2007 M1/M2 call): A mission to return to Earth an unaltered sample from a near-Earth asteroid, facilitating the characterisation of a primitive Solar System body. In February 2010, Marco Polo was not selected to continue into the definition phase.
  • TandEM (Titan and Enceladus Mission) (L-class, 2007 call): A mission to carry out an in-depth investigation of Titan, an Earth-like organic-rich world and the Saturn System, with special emphasis on Enceladus. In February 2009, ESA and NASA chose EJSM-Laplace as the L1 outer Solar System mission candidate. (See 'NASA and ESA prioritize outer planet missions'.)

TECHNOLOGY REFERENCE STUDIES

In preparation for the Cosmic Vision programme, the Solar System and Robotic Exploration Missions Section studied a series of embryonic planetary exploration mission concepts, called Technology Reference Studies:

  • Clipper / Io or Europa Orbiter, or Europa Penetrator (2015)
  • Planetary Entry Probes (2010)
  • Near Earth Asteroid Sample Return (2007)
  • Jovian System Explorer (2007)
  • Cross-Scale (2007)
  • Deimos Sample Return (2006)
  • Interstellar Heliopause Probe (2006)
  • Jovian Minisat Explorer (2005)
  • Venus Entry Probe (2005)
  • Solar Polar Orbiter (2004)

See also the overview on Technology Reference Studies (accessible from the link on the left-hand menu).

MISSIONS OF OPPORTUNITY STUDIES

The Solar System and Robotic Exploration Missions Section carries out technical and programmatic studies for Missions of Opportunity.

The following studies have been performed for candidate Missions of Opportunity:

  • KUAFU-B (2012)

Additional Former activities

For several years, the section supported the optional Mars Robotic Exploration Programme (MREP), until it was transferred to the Directorate of Human Spaceflight and Operations in January 2016.

The following MREP CDF studies have been performed by SCI-FMP:

  • Phobos Sample Return (Phobos SR, CDF 2014)
  • Mars Moon Sample Return (MMSR/ Ariane 5, CDF 2012)
  • Mars Moon Sample Return (MMSR, CDF 2011)
  • Mars Network Science Mission (MNSM, CDF 2011)
  • Mars Atmospheric Sample Return (ASR, CDF 2010)
  • Mars Sample Fetching Rover (MarsRex, CDF 2009)
  • Mars Geodesy and Environment Network (MarsGen, CDF 2009)
  • Mars Surface Station Assessment (MarsLev, CDF 2009)

The following MREP industrial system studies have been completed by SCI-FMP:

  • Phobos Sample Return mission (PH-SR)2016).
  • Mars Network Science Mission (INSPIRE) (2014)
  • Mars Phobos Sample Return (PHOOTPRINT) (2014)
  • Mars Sample Return Orbiter System study (2011)
  • Mars Precision Lander System study (2011)
  • Sample Fetching Rover (2011)

SCI-FMP contributed in the framework of an international Mars Sample Return (MSR) study to the iMARS Phase II report, initiated by the International Mars Exploration Working Group (IMEWG) in April 2014.

 


Last Update: 29 June 2016

For further information please contact: SciTech.editorial@esa.int

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