BepiColombo is Europe's first mission to Mercury. It will set off in 2015 on a journey to the smallest and least explored terrestrial planet in our Solar System. When it arrives at Mercury in January 2022, it will endure temperatures in excess of 350 °C and gather data during its 1 year nominal mission, with a possible 1-year extension. The mission comprises two spacecraft: the Mercury Planetary Orbiter (MPO) and the Mercury Magnetospheric Orbiter (MMO). BepiColombo is a joint mission between ESA and the Japan Aerospace Exploration Agency (JAXA), executed under ESA leadership.

Mission Objectives

BepiColombo has been designed to provide the measurements necessary to study and understand the composition, geophysics, atmosphere, magnetosphere and history of Mercury. In particular, the mission has the following scientific objectives:

• Investigate the origin and evolution of a planet close to the parent star
• Study Mercury as a planet: its form, interior structure, geology, composition and craters
• Examine Mercury's vestigial atmosphere (exosphere): its composition and dynamics
• Probe Mercury's magnetized envelope (magnetosphere): its structure and dynamics
• Determine the origin of Mercury's magnetic field
• Investigate polar deposits: their composition and origin
• Perform a test of Einstein's theory of general relativity
   

Mission Name

BepiColombo is named after Professor Giuseppe (Bepi) Colombo (1920-1984) from the University of Padua, Italy, a mathematician and engineer of astonishing imagination. He was the first to see that an unsuspected resonance is responsible for Mercury's habit of rotating on its axis three times for every two revolutions it makes around the Sun. He also suggested to NASA how to use a gravity-assist swing-by of Venus to place the Mariner 10 spacecraft in a solar orbit that would allow it to fly by Mercury three times in 1974-5.

ESA's Science Programme Committee decided at its meeting in Naples in 1999 to name the Mercury cornerstone mission in honour of Giuseppe Colombo's achievements. 

Spacecraft

The BepiColombo mission is based on two spacecraft: the ESA-led Mercury Planetary Orbiter (MPO), a three-axis stabilised and nadir pointing spacecraft with an instrument suite of 11 experiments and instruments, and the JAXA-led Mercury Magnetospheric Orbiter (MMO), a spinning spacecraft carrying a payload of five experiments and instruments. A summary of the spacecraft characteristics is given in the table below.

Instruments

The Mercury Planetary Orbiter will carry a sophisticated payload of 11 instruments, comprising cameras, spectrometers (IR, UV, X-ray, γ-ray, neutron), radiometer, laser altimeter, magnetometer, particle analysers, Ka-band transponder, and accelerometer. Of these, ten will be provided by Principal Investigators through national funding by ESA Member States and one from Russia.

The Mercury Magnetospheric Orbiter will carry a payload of five advanced scientific experiments, including a magnetometer, ion spectrometer, electron energy analyser, cold and energetic plasma detectors, plasma wave analyser, and imager. These will be provided by nationally funded Principal Investigators, one European and four from Japan. Significant European contributions are also being made to the Japanese instruments. 

Launch, journey and orbit

The BepiColombo trajectory employs a solar electric propulsion system so that a combination of low-thrust arcs and flybys at Earth, Venus and Mercury are used to reach Mercury with low relative velocity. A brief summary of the key stages in the journey to Mercury are given here:

• Launch on Ariane 5 in August 2015 on escape trajectory to reach heliocentric orbit for Earth flyby after 1 year
• Cruise trajectory with solar electric propulsion stage - the Solar Electric Propulsion Module (SEPM), up to 290 mN thrust - plus seven gravity assists: Earth, Venus (twice) and Mercury (four times)
• Approximately 6.5 year cruise phase to Mercury
• Ion propulsion stage jettisoned shortly before arrival at Mercury
• Capture and insertion by chemical propulsion engines within the MPO
• On reaching MMO orbit the MMO is released
• MPO is inserted into final orbit using thrust from chemical propulsion engines
• For MPO and MMO: one Earth-year (4 Mercury years) operations in Mercury orbit with optional one year extension
   

Key mission dates 
 

Operations Centre

Ground control: ESA is responsible for the overall mission design, and for the operation of the composite spacecraft up to the insertion of the MPO and MMO into their orbits. During the cruise, the European Space Operations Centre (ESOC) in Darmstadt, Germany, will coordinate the operation of the full composite spacecraft by using the Cebreros 35 m antenna in Spain. The ISAS/JAXA Sagamihara Space Operation Centre, using the Usuda 64 m antenna (Japan), will take over the operation of the MMO once it is in orbit around Mercury, while ESOC will remain in charge of the MPO spacecraft.

Science operations: ESA is responsible for the mission and scientific operation of the MPO. The BepiColombo Science Operation Centre will be at the European Space Astronomy Centre (ESAC) in Villafranca, near Madrid, Spain. It will define and coordinate the scientific observations, and assist the teams in operating their instruments.