![]() ![]() So today, researchers are scaling it up - looking into the human body with machines designed to look into dead stars. In early small-scale tests, the new scanner worked well. It would require smaller doses of X-rays, and it had the potential to be less expensive. It was smaller than conventional machines, and it could focus its X-rays on areas that doctors really wanted to see. But he adapted the NICER test devices to provide a stationary ring. Conventional cat-scan machines are big and heavy, and they have to move around to provide 3D X-rays. Ships are not listed on the scanners immediately. Instead of having to check all astros in your region manually you can see which fleets are incoming across the territory. So mission scientists invented their own X-ray machines - small instruments that could produce pulses of a few millionths of a second or longer.Ī researcher at Massachusetts General Hospital heard about the new invention, and saw an opportunity. Scanners are a feature for upgraded players which let them see all fleet movements in all regions where they have bases. Before it was launched, though, there was no way to produce such quick X-ray flashes for testing. One of NICER’s tools is recording extremely fast changes in brightness - as little as millionths of a second. ![]() It studies neutron stars, black holes, and other extreme objects. And sometimes, that equipment can be adapted for other uses.Ĭonsider NICER, an X-ray telescope that’s been operating aboard the International Space Station since 2017. In many cases, scientists have to create new equipment just to check things out. ![]() But there’s no “once-size-fits-all” test rack. Getting a space telescope ready to fly takes a lot of testing. ![]()
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