XI’AN, CHINA—No  place on Earth rivals the Antarctic Plateau for stargazing. The air is  thin and bone-dry; dust is minimal. As observatories go, the higher the  better—and at 4093 meters above sea level, it doesn’t get any higher on  the East Antarctic icecap than Dome A. Last year, Chinese researchers  opened Kunlun Station near Dome A. Now they intend to find out if a  superior vantage point translates into superior astronomy. At a workshop  here last month, astronomers unveiled plans to build two major  telescopes at Dome A during the Chinese government’s next 5-year plan,  to start in 2011.

The 2.5-meter  Kunlun Dark Universe Telescope, or KDUST, would survey the optical and  near-infrared bands for planets beyond our solar system and plumb the  mysteries of dark matter and dark energy. However, “one instrument would  be lonely,”says astronomer Yang Ji , director of Nanjing’s Purple  Mountain Observatory, which is developing a companion: a 5-meter  terahertz (THz) telescope to observe 200- to 350-micrometer wavelengths.  This “underexplored frequency window"is acutely sensitive to gas  clouds—ideal for probing, for example, star and planet formation, says  Qizhou Zhang, an astrophysicistat the Harvard-Smithsonian Center for  Astrophysics in Cambridge, Massachusetts, and a member of the group that  initiated the THz telescope project. Outside experts are impressed. ”  It’s a very ambitious and exciting program,” says John Storey, an  astronomer at the University of New South Wales (UNSW) in Sydney,  Australia.

The Chinese  Academy of Sciences has requested 1 billion yuan ($150 million) for the  telescopes and support platform—one of several science megafacilities  that the country’s powerful National Development and Reform Commission  is weighing for the 12th 5-year plan. A decision is expected around  year’s end.

The two  telescopes would be a major expansion of China’s formidable Antarctic  buildup. During the 2007–08 International Polar Year, China erected  Kunlun Station, teamed with the United States and others to study the  Gamburtsev Mountains—the origin of the East Antarctic ice sheet—and with  Australia began testing observing conditions at Dome A. To pave the way  for expansion, China last year built an ice runway at Kunlun; until  now, all materials and people have been brought in by arduous traverses.

China is not  making a leap into the unknown. Antarctic astronomy first made headlines  in 1998, when BOOMERANG, a U.S. National Science Foundation  (NSF)–sponsored balloon experiment, mapped the cosmic microwave  background and found that the universe is fl at. As an encore, a  10-meter telescope at the U.S. Amundsen-Scott South Pole Station brought  online in 2007 has begun microwave background studies.“South Pole shows  it is possible to build major astronomical facilities in Antarctica,”  says Storey.

Plenty more is  in the works. The coming austral summer at the South Pole should see  completion of IceCube, the biggest neutrino observatory in the world.  Then next year, the NSF-funded South Pole Ultraviolet Pathfi nder will  lay the groundwork for mapping the cosmic web, the universe’s  scaffolding of dark matter. Also next year, U.S.-led teams plan to field  two experiments—the Stratospheric Terahertz Observatory balloon to be  launched from McMurdo Station, and the High Elevation Antarctic  Terahertz telescope, a 0.5-meter instrument to be installed at Ridge A  in East Antarctica. And a six nation consortium has proposed a 2.5-meter  optical-infrared telescope for Dome C, where the French-Italian  Concordia station has conducted extensive site testing.

The numerous  efforts underscore the fabulous observing conditions on the plateau.  Frigid temperatures make for a low infrared background, and aerosol  concentrations are 1/50 of those at temperate sites. Water vapor is a  bane for submillimeter and THz observations. Compared with one of the  best sites in temperate latitudes—Mauna Kea in Hawaii—“Dome A is a  factor of 10 drier,”says Storey.“That’s a staggering advantage.”

Indeed, the  view from Dome A may be unbeatable. “This is a totally different  ballgame from other astronomical sites,”says UNSW’s Michael Ashley. In  January 2008, Chinese astronomers deployed PLATO, a suite of  site-characterization instruments, at Dome A. It confirmed not only that  Dome A surpasses other plateau outposts, says Ashley, but also that  “sometimes the view rivals Hubble.” And the boundary layer of turbulent  air at Dome A is only about 14 meters thick, compared with 200 meters at  the South Pole, making it far cheaper to perch telescopes above Dome A.  

Chinese  astronomers won’t have to wait for a decision on the megaproject  proposal to start ramping up at Dome A. Funding is set for installation  next year of the Antarctic Schmidt Telescopes, a trio of 50-centimeter  telescopes that should detect at least one Earth-sized extrasolar planet  per year and supernova explosions within half an hour after they become  visible, says Lifan Wang, an astronomer at Texas A&M University in  College Station and director of the Chinese Center for Antarctic  Astronomy. “This will help us study explosion mechanisms,”he says. 　　 

Meanwhile,  plans are in full swing for KDUST, designed by the Nanjing Institute of  Astronomical Optics and Technology, and the 5-meter THz telescope. The  latter has a hard act to follow: Europe’s year-old Herschel Space  Observatory, which “has opened up a new field for terahertz  astronomy,”Zhang says. But Herschel has a 3-year design life, and “it’s  very difficult to get time on it,”he says. “The 5-meter at Dome A will  continue discovery that Herschel started.” It’s also a steppingstone to a  15-meter THz telescope China hopes to build in Antarctica after 2015.  Likewise, KDUST is a prelude to a 6- to 8-meter optical and  near-infrared telescope. Long before those huge telescopes become  reality, however, Chinese researchers will have put Dome A on the  astronomy map.

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