Mountain trimmed to reach the stars

To find Earth-like planets orbiting Sun-like stars in far away solar systems, the Cerro Armazones in Chile will be cut down by 18 metres to build the European Extremely Large Telescope.

Published - June 19, 2014 11:29 am IST

Work in the desert can be a hard slog. The humidity is down to about 10%, making the air extraordinarily dry.

Work in the desert can be a hard slog. The humidity is down to about 10%, making the air extraordinarily dry.

On Thursday afternoon, the silence of the Atacama desert in Chile will be rudely broken by the dull crack of dynamite sending a rush of mountain rock skywards.

The explosion, planned for 2 p.m. local time, marks the start of a month-long project to lop the top off the 3,000 metre-high Cerro Armazones. Once the dust has settled and the rubble has been cleared, the mountain will be smaller, flatter, and ready to host the largest optical and infrared telescope in the world.

The European Extremely Large Telescope, or E-ELT, will serve astronomers and cosmologists for generations. Some 2,500 tonnes of steel rigging are on order to hold a primary mirror nearly 40 metres wide, large enough to see the faintest light from the earliest stars, and pick up signs of life on planets far beyond our solar system.

“Today we cannot imagine what will be discovered,” programme manager Roberto Tamai told the Guardian . “I feel excited. We are opening a highway for the future knowledge of astronomy.” The telescope is the most ambitious project for the European Southern Observatory (ESO), a multinational organisation of which Britain is a leading member. The U.K. has invested £88 million in the E-ELT and will have a significant role in the construction and operation of the telescope.

But first the jagged mountaintop needs to be broken apart and bulldozed to a plateau large and strong enough to hold the enormous observatory. Perched on top of the reshaped mountain, the €1.1 billion E-ELT will have near-perfect conditions for observing the heavens.

Cerro Armazones is not the first mountain to be decapitated in the area. Twenty kilometres away is Cerro Paranal. Engineers from the ESO cut that peak down to size some years back to build another facility, the Very Large Telescope (VLT). They will use the same procedure this time: blast and clear, blast and clear.

More than half a million tonnes of rock will be removed from Cerro Armazones, leaving it 18 metres shorter. Scientists and engineers will watch the first blast on Cerro Armazones from the safety of Paranal. The event will be filmed and streamed live on the web from 1 p.m. to 3 p.m. local, though images from cameras closer to the action may take a day or two to release.

Work in the desert can be a hard slog. The humidity is down to about 10%, making the air extraordinarily dry. The hotel at Paranal has a swimming pool in the lobby and for very good reason.

“You can swim in it if you like, but the point is to keep the humidity at a bearable level. If you sleep for eight hours in 10% humidity, you are almost dead by the time you wake up because you breathe out so much moisture,” said Joe Liske, an astronomer at the E-ELT science office.

The low humidity is not the only problem for the 100 or so ESO staff at Paranal. Dust gets everywhere, in your shoes, your glasses, your car. The desert hues, shades of pinky, orangey brown, are monotonous. People come to crave a view of the sea, and the green of plants, entirely absent from the desert. Then there are those missing loved ones back home. “There’s a lot of sacrifice. Your private life goes ga-ga,” said Mr. Tamai.

The E-ELT will take a decade to build. The telescope’s huge mirror is too large to make from one piece of glass, so engineers will combine 798 smaller hexagonal mirrors, each of which can be moved independently. The E-ELT has a system called adaptive optics that can shift the mirrors in real time to counteract the blurring effects of the atmosphere. “We need to be able to adjust each one to get the perfect shape for the primary mirror, and that has to happen at all times to get the best possible image quality,” Mr. Liske said.

When the telescope is operational, around 2024, astronomers will point it at Earth-like planets orbiting sun-like stars in far away solar systems. So far, scientists have made only the most rudimentary measurements of these planets, but E-ELT could change all that. “We want to study the atmospheres of planets that are just the right distance from their stars that life might form on their surfaces. The goal is to try to say whether life might exist on some of these planets,” said Mr. Liske.

A planet’s atmosphere can hold numerous signs of life. The E-ELT will look for infrared signatures of methane, released by much of life on Earth, and other gases such as oxygen and carbon dioxide. The telescope could detect direct signs of life, such as chlorophyll found in vegetation. The telescope will have many more uses though, many are not yet apparent. In 2011, scientists shared a Nobel prize for work on supernovae, or exploded stars, that revealed how fast the universe is expanding. Isobel Hook, an astrophysicist at Oxford University who works on E-ELT, hopes to use the telescope to observe more distant supernovae.

“We’ll be able to see supernovae much further away, and so map out the expansion of the universe to much earlier times,” she said. “The E-ELT is really the next big step for astronomy everywhere.”

© Guardian News & Media 2014

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