蓝莓视频

Traditionally, astronomy was limited to studying objects we could see, such as stars and planets. But a new submillimetre telescope 鈥� the largest, highest and most precise of its kind 鈥� will soon change that.

鈥淢any of the most interesting objects in the universe emit light in the far-infrared and submillimetre range, which is invisible to the naked eye,鈥� said astronomer Michel Fich from the University of 蓝莓视频.

The Cerro Chajnantor Atacama Telescope (CCAT) will be the largest and most powerful submillimetre telescope in the world.

蓝莓视频 leads Canadian consortium

Fich, a professor in the Department of Physics and Astronomy in the Faculty of Science, is leading a group of researchers at eight Canadian universities in an international effort to build CCAT 鈥� a $150-million state-of-the-art submillimetre telescope that will give astronomers a peek at the universe as it was 10 to 12 billion years ago.

While optical telescopes are great for observing light-emitting objects such as stars, submillimetre telescopes are perfect for probing dark, cold interstellar material, such as black holes and primordial radiation emitted after the Big Bang.

"We're trying to understand our history and the origins of the universe," said Fich. "We live in this galaxy and we really don't know a lot about it."

The CCAT will help astronomers answer questions about how galaxies collide, merge, interact and evolved. It will also help scientists learn more about how planets, stars and solar systems formed.

What is CCAT?

With a dish 25 metres in diameter, CCAT is designed to capture a very wide view of space. It鈥檚 not the first submillimetre telescope, but will be substantially larger and 100 times more sensitive than its predecessor. Outfitted with a state-of-the-art camera, CCAT is expected to map the sky 1,000 times faster, and with better resolution, than the best detector in the world.

The CCAT will be built 5,600 metres above sea level near the summit of Cerro Chajnantor in the Chilean Atacama desert. Submillimetre telescopes are effective only at elevations above 4,000 metres as the Earth鈥檚 atmosphere blocks much of this important wavelength range.

In addition to gathering research data this international facility will also serve as a world-class training facility for students from more than 14 universities. CCAT is scheduled to be operational by 2020.