Radio astronomy, despite using similar large antennas, is a very different field than spacecraft communication. There is no need to transmit, and the receiving bands are chosen for scientific interest. • The 15-meter radio telescope in Miyun was built in 1992 and used to study
pulsars, but was dismantled around 2002 in favor of the 50-meter radio telescope. • The
Miyun Synthesis Radio Telescope (MSRT) is a telescope for observing solar activity and examines the frequency range of 232 MHz. It consists of 28 antennas with a diameter of 9 meters each with baselines between 18 m and 1164 m at intervals of 6 m and has been in operation since 1998. • The
Five-hundred-meter Aperture Spherical Telescope (FAST) is the radio telescope with the world's largest primary mirror. The total diameter of the immovable spherical main mirror is 500 meters; signals can be effectively received over an area with a diameter of 300 meters (aperture). FAST is mainly used for radio astronomy. However, FAST will play an important role in China's 2020 Mars mission, because of the frequency range of its receivers (70 MHz to 3 GHz). Any Mars landing, such as will be attempted by
Tianwen-1, must decelerate from many times the speed of sound to 0 within 6–8 minutes, so the frequency of the carrier wave of the telemetry signals in the
X-band changes rapidly due to the
Doppler effect. In the event of the sudden braking caused by opening the parachute, the regular deep-space stations will most likely lose contact with the probe. For backup, Mars landings therefore enlist the cooperation of radio astronomy facilities that can receive
decimeter band (UHF) communication. •
Primeval Structure Telescope (PaST), also called 21 Centimetre Array (21CMA), in
Ulastai,
Xinjiang was completed in 2006. It was expanded in 2009 with new, low-noise amplifiers and better computer technology for evaluation. This remote valley array studies the low level emissions of neutral hydrogen from the
hydrogen line. The array consists of 81 groups (pods) with a total of 10287 antennas. These are arranged in two mutually perpendicular arms, one 6.1 km long in an east–west direction, the other 4 km long in a north–south direction. Each antenna has 16 dipoles with lengths between 0.242 and 0.829 meters and covers a frequency range from 50 to 200 MHz.
Planned or under construction stations • The
Qitai Radio Telescope (QTT) is a planned 110-meter
radio telescope to be built in
Qitai County in
Xinjiang, China. Upon completion, which is scheduled for 2023, it will be the world's largest fully steerable single-dish radio telescope. It is intended to operate at 300 MHz to 117 GHz. The fully steerable dish of the QTT will allow it to observe 75% of the stars in the sky at any given time. The QTT and the FAST, also located in China, can both observe frequencies in the "
water hole" that has traditionally been favored by scientists engaged in the
search for extraterrestrial intelligence (SETI), meaning that each observatory could provide follow-up observations of putative signals from extraterrestrials detected in this quiet part of the radio spectrum at the other observatory. == Relay satellites ==