Astronomers Say a New, Huge Satellite Is As Bright As the Brightest Stars

An anonymous reader quotes a report from Ars Technica: Last month, a Texas-based company announced that it had successfully deployed the largest-ever commercial communications satellite in low-Earth orbit. This BlueWalker 3 demonstration satellite measures nearly 65 square meters, or about one-third the size of a tennis court. Designed and developed by AST SpaceMobile, the expansive BlueWalker 3 satellite is intended to demonstrate the ability of standard mobile phones to directly connect to the Internet via satellite. Large satellites are necessary to connect to mobile devices without a ground-based antenna. [...] Since BlueWalker3's launch in September, astronomers have been tracking the satellite, and their alarm was heightened following its antenna deployment last month. According to the International Astronomical Union, post-deployment measurements showed that BlueWalker 3 had an apparent visual magnitude of around 1 at its brightest, which is nearly as bright as Antares and Spica, the 15th and 16th brightest stars in the night sky. For a few years, astronomers have been expressing concerns about megaconstellations, such as SpaceX's Starlink satellites. While these are more numerous -- there are more than 3,000 Starlink satellites in orbit -- they are much smaller and far less bright than the kinds of satellites AST plans to launch. Eventually, AST plans to launch a constellation of 168 large satellites to provide "substantial" global coverage, a company spokesperson said. Even one is enough for astronomers, however. "BlueWalker 3 is a big shift in the constellation satellite issue and should give us all reason to pause," said Piero Benvenuti, a director at the International Astronomical Union. The organization of astronomers is also concerned about the potential for radio interference from these "cell phone towers in space." They will transmit strong radio waves at frequencies currently reserved for terrestrial cell phone communications but are not subject to the same radio quiet zone restrictions that ground-based cellular networks are. This could severely impact radio astronomy research -- which was used to discover cosmic microwave background radiation, for example -- as well as work in related fields. Astronomers currently build their radio astronomy observatories in remote areas, far from cell tower interference. They are worried that these large, radio-wave transmitting satellites will interfere in unpopulated areas. "We are eager to use the newest technologies and strategies to mitigate possible impacts to astronomy," AST said in a statement to Ars. "We are actively working with industry experts on the latest innovations, including next-generation anti-reflective materials. We are also engaged with NASA and certain working groups within the astronomy community to participate in advanced industry solutions, including potential operational interventions." AST is "committed to avoiding broadcasts inside or adjacent to the National Radio Quiet Zone in the United States [...] as well as additional radioastronomy locations," adds Ars.

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