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British-built spacecraft heads for planet Mercury

BepiColombo began its mission after a perfect launch.
BepiColombo began its mission after a perfect launch. BepiColombo began its mission after a perfect launch.

A British-built spacecraft fitted with Star Trek-style “impulse engines” is on its way to Mercury, the planet closest to the sun.

BepiColombo was blasted into space from the European space port at Kourou, French Guiana, at about 2.45am UK time on Saturday.

It was carried on top of an Ariane 5, the European Space Agency’s (ESA’s) most powerful rocket.

After a tense countdown in French the rocket rose slowly above a ball of orange flame and thundered into the sky before disappearing into cloud.

Now begins a complex journey for the spacecraft that will take seven years and cross five billion miles (8.5 kilometres) of space.

Following the “escape trajectory” launch, BepiColombo will swing past the Earth in a wide curve before first heading for Venus.

In 2025 it will place two probes, one European the other Japanese, in orbit around Mercury, the least explored world in the solar system.

Speaking after the launch, Professor Gunther Hasinger, ESA’s director of science, said: “This is truly breathtaking. We have today written history.

“We have sent the most complex stack of spacecraft that ever have been conceived into space, and to a very long journey to an environment which is truly out of the Earth; truly out of this world.”

The BepiColombo spacecraft
The BepiColombo spacecraft (PA Graphics)

The Mercury Transfer Module (MTM), carrying the orbiters, was built in Stevenage by the Defence and Space division of aerospace company Airbus.

Key elements of ESAs Mercury Planet Orbiter were also assembled by Airbus in the UK.

Scientists hope the £1.4 billion mission will unravel some of Mercury’s many mysteries, such as the reason for its oversized iron core, its spectacular volcanic vents, and tantalising hints of water ice in shadowy parts of the scorching hot planet.

The answers they get will shed new light on the origins and evolution of the solar system.

A key feature of BepiColombo is that it is the first interplanetary mission to employ advanced electric ion propulsion technology.

Four Star Trek-style “impulse engines”, two firing at a time, will emit beams of electrically charged, or “ionised”, xenon gas.

They will be used not to accelerate the craft but to act as a brake against the sun’s enormous gravity.

A series of fly-bys past the Earth, Venus, and Mercury will also help to reduce BepiColombo’s velocity by 7km per second.

At top speed after launch, the spacecraft will be moving at 60km (37 miles) per second.

One of the biggest challenges for mission planners was ensuring the spacecraft could withstand searing temperatures of more than 350C so close to the sun.

Protective measures include a heat shield, novel ceramic and titanium insulation, ammonia-filled “heat pipes”, and in the case of the Japanese orbiter, “roast-on-a-spit” spinning.

A suite of 11 instruments on the MPO will map the surface of Mercury and probe its chemical composition for up to two years.

Meanwhile, the Japanese space agency Jaxa’s Mercury Magnetospheric Orbiter’s five instruments  will focus on the planet’s unusual lopsided magnetic field.

One of BepiColombo’s main instruments, the Mercury Imaging X-ray Spectrometer (Mixs), was designed and built at the University of Leicester.

The ion thrusters were supplied by the UK defence technology company QinetiQ.

Only two spacecraft have previously visited Mercury. Nasa’s Mariner 10 flew past the planet three times in 1974-75 and the American space agency’s Messenger probe orbited Mercury from 2011 to 2015.

BepiColombo was named after the late Giuseppe “Bepi” Colombo, an Italian scientist and engineer who played a leading role in the 1974 Mariner 10 mission.

BepiColombo Europe’s first mission to Mercury
BepiColombo Europe’s first mission to Mercury The BepiColumbo spacecraft is due to arrive at Mercury in seven years (PA)

Professor Emma Bunce, from the University of Leicester, who heads the Mixs instrument team, said after watching the launch: “I didn’t know what to expect but it was absolutely amazing, just spectacular, the way it lit up the whole sky and the way the sound eventually reaches you. Quite emotional really.

“You think about the instrument you’ve worked for so many years on sitting on top of that rocket and you hope it’s going to be OK.”

Justin Byrne, head of science at Airbus Defence and Space, said: “My feelings are of relief. We’ve spent 15 years building a complex spacecraft so it’s fantastic that it’s going on its journey. I’m excited about what’s to come.”

“The engines will be switched on in a few days and that will be the crowning glory. Then we have seven years to wait for the science.”

ESA director general Professor Jan Woerner sounded a word of caution, pointing out that the launch was only the “first step”.

He added: “Of course I’m happy that the launch worked perfectly. Now we have to see what happens in the future, but I am optimistic.”

Around 26 minutes after the launch came confirmation that BepiColombo had separated from the last stage of the Ariane 5 rocket.

Then came the news that the 30 metre wide solar panels had deployed successfully, which was a critical early point of the mission.