{"id":54388,"date":"2025-01-10T11:25:25","date_gmt":"2025-01-10T11:25:25","guid":{"rendered":"https:\/\/www.innovationnewsnetwork.com\/?p=54388"},"modified":"2025-01-10T11:25:25","modified_gmt":"2025-01-10T11:25:25","slug":"bepicolombo-mission-to-mercury-provides-new-insights-into-planet-formation","status":"publish","type":"post","link":"https:\/\/www.innovationnewsnetwork.com\/bepicolombo-mission-to-mercury-provides-new-insights-into-planet-formation\/54388\/","title":{"rendered":"BepiColombo mission to Mercury provides new insights into planet formation"},"content":{"rendered":"

The European\/Japanese BepiColombo mission to Mercury will help us understand the formation of the Solar System and its inner rocky planets.<\/h2>\n

The BepiColombo mission to Mercury was launched on 20 October 2018 and is currently in the cruise phase towards its destination<\/a>, due to arrive in late 2026.<\/p>\n

BepiColombo will be only the third spacecraft to visit Mercury in the history of space exploration. The mission will increase our understanding of all aspects of the planet, from its composition, structure, atmosphere and magnetic environment.<\/p>\n

The challenges of Mercury\u2019s harsh environment<\/h3>\n

Almost as dense as the Earth but not much bigger than our Moon, Mercury is the second smallest planet in the Solar System. Scientists believe its high density can be attributed to the planet’s massive iron core.<\/p>\n

The surface is pock-marked with enormous craters caused by meteorites smashing into the planet\u2019s surface in the early stages of the Solar System\u2019s evolution<\/a> some four billion years ago.<\/p>\n

Mercury\u2019s harsh environment makes it a particularly challenging mission.<\/p>\n

BepiColombo will have to endure intense sunlight and temperatures up to 350\u00b0C while gathering data.<\/p>\n

Advanced technology will help the mission to Mercury<\/h3>\n

The mission to Mercury will build on the experience gained in using electric propulsion<\/a> on the SMART-1 mission. BepiColombo\u2019s journey will also be helped by the gravity of the Moon, Earth, and Venus during fly-bys to help it make its way to Mercury.<\/p>\n

BepiColombo consists of four sections: a Mercury Transfer Module (MTM) – designed to get the spacecraft to the planet; two orbiters \u2013 the European Mercury Planetary Orbiter (MPO) and the Japanese Mercury Magnetospheric Orbiter (MMO) \u2013 and a sunshield and interface structure (MOSIF) to protect it during the cruise phase.<\/p>\n

ESA is responsible for the larger MPO. Its 11 scientific instruments will study Mercury from a low-polar orbit.<\/p>\n

MIXS will measure fluorescent X-rays that come from the Sun and are reflected off the planet\u2019s surface. Fluorescent X-ray measurements can be used to identify chemical elements, while measurements at infrared wavelengths can be used to determine mineral composition.<\/p>\n

Japan developed the MMO. This has five science instruments on board designed to examine Mercury\u2019s magnetic field and magnetosphere – the magnetic \u2018bubble\u2019 surrounding a planet. Mercury intrigues scientists because it is hard to understand why such a small planet can have a magnetic field at all.<\/p>\n

BepiColombo will make its way to Mercury with an ion engine. This employs solar panels to generate electricity, which is used to produce charged particles from xenon gas.<\/p>\n

A beam of these charged particles, or ions, is then expelled from the spacecraft. The engine will be used to slow the spacecraft down so that it can eventually be captured by the gravity of Mercury.<\/p>\n

The UK\u2019s involvement is crucial for the mission<\/h3>\n

Key items of the spacecraft were built in the UK in partnership with several UK science teams.<\/p>\n

UK space scientists, led by the University of Leicester, developed one of the key instruments on board BepiColombo: MIXS (Mercury Imaging X-ray Spectrometer).<\/p>\n

MIXS will be used to help find out about what the planet\u2019s surface is made of. This will help to explain how the planet formed during the early history of the Solar System.<\/p>\n

Airbus Defence and Space (Germany) was appointed as the prime contractor to build the European components. Airbus UK provided all the spacecraft structures as well as the electrical and chemical propulsion systems for the MTM, the chemical propulsion system for the MPO (which will be the first dual-mode propulsion system designed and built in Europe) and the systems which will separate the spacecraft modules on arrival at Mercury.<\/p>\n

Furthermore, QinetiQ (UK) was awarded the contract to supply the innovative electric propulsion system for BepiColombo. Electricity generated by solar panels will be used to produce charged particles from xenon gas.<\/p>\n

A beam of these charged particles, or ions, is then expelled from the spacecraft to propel it forward. Ion propulsion produces low levels of thrust very efficiently compared with conventional chemical rockets.<\/p>\n

Finally, SEA Ltd (now Thales Alenia Space UK) was contracted to supply the Remote Interface Units (RIUs) for the MPO and the MTM. The RIUs are important equipment for both spacecraft as they acquire the critical sensor data and telemetry and drive the thrusters that control the spacecraft.<\/p>\n","protected":false},"excerpt":{"rendered":"

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