Engineers have finished two-thirds of the panels of the gigantic radio telescope in Guizhou province as of Saturday, Nov 21.[Photo by Jiang Dong/China Daily]
Scientists carried out the last step in testing a key component of China’s gigantic radio telescope on Nov 21. After its scheduled completion in September, it will be the largest such telescope in the world.
A team successfully tested the installation of the telescope’s “retina”, a mechanism weighing 30 metric tons and suspended 140-160 meters above the half-finished reflector dish which will collect signals from the universe.
The telescope, 500 meters in diameter and usually known as FAST, is composed of 4,500 mostly triangular panels with sides measuring 11 meters that create a parabolic shape or hemisphere. The motion of the panels alters the collective shape of the antenna, which is capable of reflecting radio signals from the universe to a focal point, where the receiver dome sits.
“So far, one of the most important steps has been completed. We will finish installing all the panels by June 2016, and strive to debug the whole system by the end of September,” Li Di, a chief scientist from the National Astronomical Observatories affiliated with the Chinese Academy of Sciences, told China Daily.
Comparing telescopic titans.[China Daily]
The working mechanism of FAST, or Five-hundred-meter Aperture Spherical Telescope, is similar to any television antenna on a roof, according to Li. But FAST is so much larger that “if you fill it with wine, every one of the world’s seven billion people could get a share of about five bottles”, he said.
FAST is unique because 4,350 panels have been designed to move up and down, which enables the whole hemisphere to rotate or to reshape.
“With a larger signal receiving area and more flexibility, FAST will be able to scan two times more sky area than Arecibo, with three to five times higher sensitivity,” Li said.
FAST was first proposed in 1993 by Chinese astronomers, as one of several competing concepts for the international Square Kilometer Array project－a project by astronomers worldwide to build the next generation radio observatory.
“Ultimately, exploring the unknown is the nature of mankind, which is as visceral as feeding and clothing ourselves. It drives us to a greater future,” he said.
Lister Staveley-Smith, an astronomer at the University of Western Australia, expects new discoveries from FAST, including previously unknown pulsars in the Milky Way and even in other more distant galaxies.
“The FAST’s sensitivity and resolution will allow an extremely comprehensive study of thousands of galaxies in different environments in the local universe,” he said in an e-mail exchange with China Daily.
Chris Salter, head of the Radio Astronomy Group at Arecibo, said the 305-meter radio telescope and FAST are both similar in many aspects and complementary to each other. “I have no doubt that FAST counts as being a very exciting development for radio astronomy, and I enthusiastically await the commissioning of the new telescope,” he wrote in an e-mail.