Known since Antiquity, Mercury has not yet delivered all its secrets. The international mission BepiColombo, scheduled to launch in the coming days, will study the planet's surface and compare its magnetic field with that of the Earth.

Apart from Earth, Mercury is the only terrestrial planet with its own magnetic field, and yet it has only been visited by two space missions so far. This is indeed no easy task: because it is so close to the Sun, a spacecraft that misses the Swift Planet's weak gravitational field will inevitably plunge towards the solar surface, heated to a fiery 5,500 C.

The European and Japanese space agencies, ESA and JAXA, have therefore worked in close collaboration to ensure BepiColombo's success. The mission, which comprises two orbiters, is scheduled to launch from Kourou, French Guiana, on the night of 19-20 October aboard an Ariane 5 rocket. After a seven-year journey and two flybys of Venus to benefit from a gravity assist, it will then survey Mercury's surface, atmosphere, and magnetosphere for two years, until 2027.

From Mariner to Bepi
In the 1970s, during a mission mainly focused on Venus, the American spacecraft Mariner 10 carried out three flybys of Mercury. One of the researchers involved was a professor at the University of Padua, Italy, called Giuseppe "Bepi" Colombo. The new spacecraft, the very first collaboration between ESA and JAXA, was named after him.

During the brief flybys, Mariner 10 was able to map half of Mercury and detect its magnetic field. Although it is much weaker than Earth's, it shows that the core of the planet is still active. Mariner 10 also confirmed the presence of an exosphere, an extremely tenuous atmosphere extending to very high altitudes.

Many years later, NASA launched the MESSENGER spacecraft. Placed in orbit around Mercury in March 2011, it crashed onto its surface in April 2015 when it ran out of fuel. It confirmed Mariner 10's observations and carried out further mapping and surveys of the surface. In particular, MESSENGER discovered evidence not only of volcanic activity and plate tectonics, but also of water ice: due to Mercury's extremely small axial tilt, no direct sunlight ever reaches the bottom of impact craters at the poles.

"Although MESSENGER carried a magnetometer and equipment to measure ions and energetic particles, the spacecraft's main mission was to survey the planet, its thin atmosphere and its surface," explains Dominique Delcourt, CNRS senior researcher and director of the LPC2E, in charge of the ion mass spectrometer on board BepiColombo's Japanese-designed orbiter, MMO. "In the presence of an intrinsic magnetic field, a magnetic cavity forms in space. This is called the magnetosphere, where many particle transport and acceleration processes take place."

One Mission, Two Orbiters
The BepiColombo mission comprises two orbiters carrying a science payload of nearly 100 kilograms. The first one, MPO (Bepi), will be dedicated to fully mapping the planet and studying its surface, internal structure, and exosphere, while the second, MMO (renamed Mio), will study its magnetic environment. Once at their destination, Mio will be released first, followed by Bepi, which will be placed into the lowest orbit ever achieved around Mercury.

Delcourt is upbeat: "This wider array of instruments will enable us to not only make new discoveries, but also review MESSENGER's data. By combining observations from both orbiters, we will also be in a position to perform what you might call stereoscopic measurements, something that was previously impossible."

The MMO orbiter will complete one rotation in just four seconds, enabling its instruments to point in all directions in space in search of neutral or ionized particles and electromagnetic waves. With a higher resolution than the MESSENGER instrument, the MSA ion spectrometer, developed at the LPP in collaboration with Japanese and German teams, can distinguish between heavy atoms only one atomic mass unit apart, such as potassium and calcium.

"These measurements will enable us to characterize ejected planetary material," says Delcourt. "As a result of meteorite bombardment and the solar wind, matter is ejected from the surface of Mercury. It can then be ionized by the Sun's ultraviolet radiation, and transported and accelerated around the planet." By studying these ions, it will be possible to analyze the composition of the surface without having to land on it.

A Model Magnetic Field
The magnetic field of Mercury is also an interesting generic model. Observing a magnetosphere that is smaller than ours should improve our understanding of the behavior of both neutral and ionized matter in space.

At such a short distance from the Sun, the density of the solar wind means that it has a greater impact on the planet. Another interesting factor is that Mercury's highly elliptical orbit causes significant cyclical variations in this exposure. As a result, BepiColombo's various scientific instruments are likely to be kept extremely busy. Six of them were designed with the participation of eight CNRS laboratories, including the LPC2E, the IAS, IPGP, the Research Institute in Astrophysics and Planetology (IRAP), the LAM], LATMOS, LESIA, and LPP.

At the LATMOS, Eric Quemerais is the lead scientist for PHEBUS. This ultraviolet spectrometer scans frequencies ranging from 50 to 320 nanometers, as well as a few lines used to detect calcium and potassium.

Analyzing Mercury's Surface
"We cover a wider spectral range that includes elements that were invisible to MESSENGER, such as helium, sulfur, ionized calcium, dihydrogen, etc.," Quemerais explains. "Thanks to a better signal-to-noise ratio, we also have an improved detection limit."

And whereas the American spectrometer was aligned with its probe, PHEBUS has an independent pointing mechanism. This allows it to choose its direction and provides better spatial and temporal coverage in orbit. "The exosphere gives an idea of the composition of Mercury's surface and of its outermost layers," Quemerais adds.

"For instance, we know that we will detect calcium and sodium, but we also expect to find magnesium, potassium, and oxygen, whose presence has not yet been systematically confirmed."

Another advantage of ultraviolet light is that it reflects off ice in a different way, which means that PHEBUS will be able to spot any water ice present. "This technique has already been employed on the Moon," says Quemerais. "We will use these changes in the amount of reflected light to map Mercury's two poles." Because of its specific orbit, selected so that it could survey the North Pole, MESSENGER was only able to map half the planet.

BepiColombo thus promises to provide the scientific community with a wealth of new data. In June 2020 in Orleans (central France), Delcourt will be organizing the next important conference dedicated to the Swift Planet.

"Of course, BepiColombo won't have reached its destination by then, but we will nonetheless be able to make use of MESSENGER's data," he explains. No doubt the scientists at that time will have their sights set on Venus, which Bepi Colombo will be about to swing past, propelled on its way to Mercury, its final destination.

Related Links
Centre National De La Recherche Scientifique
News Flash at Mercury
Mars News and Information at MarsDaily.com
Lunar Dreams and more

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Practising for BepiColombo's epic escape to Mercury
Paris (ESA) Oct 15, 2018
The international BepiColombo spacecraft will soon take flight, on a complex journey to the innermost planet of the Solar System, Mercury. Encompassing nine planetary flybys and travelling a total distance of nine billion km over a period of seven years, this will be one of the most intricate journeys ever flown by mission teams at ESA's ESOC mission control centre. With launch set for 20 October, flight controllers led by Operations Manager Elsa Montagnon are now busily preparing for the start of ... read more