The BepiColombo spacecraft is pictured in launching configuratin shortly before stacking atop the Ariane 5 rocket in French Guiana. Credit: ESA / CNES / Arianespace – Photo Optical Video of the CSG – S. Martin
Ground crews at the Guiana Space Center in South America. BepiColombo spacecraft, a tandem mission with European and Japanese science orbiters bound for Mercury, for launch aboard an Ariane 5 rocket.
Liftoff is scheduled for 0145 GMT on Oct. 20 (9:45 p.m. EDT on Oct. 19) from Kourou, French Guiana.
The BepiColombo spacecraft stands 21 feet (6.4 meters) tall at launch and weighs 8,997 pounds (4,081 kilograms) fully fueled with hydrazine and xenon propellants for the 7.2-year journey to Mercury.
Workers at the spaceport in French Guiana have spent the last few months reading the BepiColombo spacecraft for launch. Key steps included filling the spacecraft with propellant, and stacking the major parts of the vehicle for the planet system.
This illustration shows the major components of the BepiColombo mission. At top is the Japanese Mercury Magnetospheric Orbiter. Below is the spacecraft's sunshield, which will cover the Japanese orbiter during the interplanetary cruise. The European Mercury Planetary Orbiter is the European-built Mercury Transfer Module. Credit: ESA / ATG medialab
BepiColombo's European-built Mercury Planetary Orbiter carries 11 instruments, a suite comprising a high-resolution mapping camera, a laser altimeter, an accelerometer, and a set of spectrometers on a downward-facing science deck that will remain pointed to the planet over each orbit .
The Japanese-made Mercury Magnetospheric Orbiter's Five Science Scientists will study the plasma environment around Mercury's attempt to image the planet's sodium-rich atmosphere, and measure Mercury's magnetic field.
The spacecraft also includes the Mercury Transfer Module, a section with a steerable plasma engines and solar arrays designed to steer BepiColombo through the inner solar system through a series of gravity assist encounters with Earth, Venus and Mercury before finally arriving in the orbit of the planet innermost in December 2025.
The BepiColombo will be part of the Mercury, with the European and Japanese orbiters heading to different orbits. The Mercury Transfer Module will be jettisoned along with a sunshield that will keep the Japanese part of the world at the crossroads of Earth to Mercury.
BepiColombo will become the second mission to orbit Mercury after NASA 's MESSENGER spacecraft, which explored the planet from 2011 through 2015.
The photos below show the BepiColombo spacecraft's launch preparations in French Guiana after a series of Antonov cargo flights delivered the major parts of the mission to the launch base from Europe.
The spin-stabilized Mercury Magnetospheric Orbiter shortly after arriving in Kourou, French Guiana. Credit: JAXA / ESA-M. BasileThe Mercury Planetary Orbiter, with its hand-sewn insulation panels to protect it from extreme temperatures on the mission to Mercury. Credit: ESA – S. CorvajaOne of the Mercury Transfer Module has two solar arrays undergoes a deployment test. Credit: ESA – S. CorvajaA technician sews insulation panels on BepiColombo 's Mercury Transfer Module in French Guiana. Credit: ESA – S. CorvajaThe Mercury Planetary Orbiter. Credit: ESA – S. CorvajaA technicians get thermal blankets on BepiColombo's Mercury Transfer Module. Credit: ESA – S. CorvajaSeveral major pieces of the BepiColombo mission are visible in this image inside the processing facility at the Guiana Space Center. In the foreground is the Mercury Transfer Module, and one of the MTM's solar panels, the sunshield, and the Mercury Planetary Orbiter are visible in the background. Credit: ESA – S. CorvajaThe Mercury Planetary Orbiter and Mercury Module Transfer undergo electrical compatibility testing. Credit: ESA-B.GuillaumeThe solar wing on the Mercury Planetary Orbiter is available at the Guiana Space Center. Credit: ESA – Mr. PedoussautThe BepiColombo "minister" is on the move at the Guiana Space Center. The Mercury Planetary Orbiter and Mercury Magnetospheric Orbiter are connected together in this image. Credit: ESA / CNES / Arianespace / CSG video optics – P.BaudonThe BepiColombo Mercury Transfer Module (left) and the "Minister" of the Mercury Planetary Orbiter and Mercury Magnetospheric Orbiter (right) are prepared for chemical fueling. Credit: ESA / CNES / Arianespace / CSG video optics – P.BaudonTechnicians prepare for the Mercury Transfer Module with the two BepiColombo science orbiters. Credit: ESA / CNES / Arianespace / CSG video optics – P.BaudonThe BepiColombo science orbiter "minister" is brought back to the Mercury Transfer Module. Credit: ESA / CNES / Arianespace / CSG video optics – P.BaudonThe BepiColombo spacecraft is lifted in preparation for attachment to its Ariane 5 launcher. Credit: ESA / CNES / Arianespace / CSG video optics – JM GuillonCredit: ESA / CNES / Arianespace / CSG video optics – JM GuillonThe BepiColombo spacecraft is coming onto its Ariane 5 launcher in the final assembly building at the Guiana Space Center. Credit: ESA – Mr. PedoussautThe sunshield is over the Mercury Magnetospheric Orbiter. Credit: ESA – Mr. PedoussautThe Mercury Magnetospheric Orbiter will be protected by a sunshield during BepiColombo's outbound cruise from Earth. Credit: ESA – Mr. PedoussautThe Ariane 5 rocket 's payload is prepared for encapsulation of the BepiColombo spacecraft on the launcher. Credit: ESA-Manuel PedoussautCredit: ESA-Manuel PedoussautThe BepiColombo spacecraft is encapsulated inside the Ariane 5's payload fairing. Credit: ESA-Manuel Pedoussaut
