In a few short weeks, engineers in the Chilean Coastal Ranges of the Andes Mountains in South America will be blowing off the top of Cerro Armazones. Standing at 10,000 feet, it’s one of the tallest peaks in the region. Here’s Gird Hudepohl, the head engineer for the project:
“We will take about 80ft off the top of the mountain to create a plateau – and when we have done that, we will build the world’s biggest telescope there.”
The Coastal Ranges region is extremely arid, which increases visibility since water vapor in the air obscures a telescope’s vision (this is also why telescopes at high elevations have much better vision than those closer to sea level).
This isn’t Hudepohl’s first rodeo. He works for the European Southern Observatory and was in charge of the demolition of another nearby peak (Cerro Paranal) which is now home to one of the world’s most advanced observatories.
The observatory at Cerro Paranal is equipped with four VLTs (Very Large Telescopes), each the size of “a block of flats” and each equipped with an 8m wide primary mirror (thats more than 24 feet).
Here’s some pictures of the European Southern Observatory (click an image to enlarge):
The new telescope, however, will be bigger than all four of those VLTs combined. The E-ELT (European Extremely Large Telescope- they’re not very creative with the names obviously) will be equipped with a massive 39m (128ft) primary mirror made up 800 segments, each 1.4 meters in diameter but only a few centimeters thick. Each segment must be calibrated with microscopic precision for the telescope to function correctly.
When it’s finished (projected completion is 2025), the telescope will be housed in a 74m (~243ft) dome and weigh in at almost 3,000 tons. The project has a price tag of $1.34 billion.
The telescope is obviously extremely expensive, but the potential benefits it will provide are well worth it. Here’s Cambridge University astronomer Professor Gerry Gilmore explaining why the E-ELT will be such a major breakthrough:
“[Right now] we can see exoplanets but we cannot study them in detail because – from our distant perspective – they appear so close to their parent stars. However, the magnification which the E-ELT will provide will mean we will be able to look at them directly and clearly. In 15 years, we should have a picture of a planet around another star and that picture could show its surface changing colour just as Earth does as the seasons change – indicating that vegetation exists on that world. We will then have found alien life.”
Read the full story from The Guardian here.