NASA’s Nancy Grace Roman Area Telescope is now absolutely assembled and able to start launch preparations this summer season.
The ultimate integration of the telescope’s main observatory elements came about on Nov. 25 inside NASA’s Goddard Area Flight Heart in Greenbelt, Maryland, the place engineers introduced collectively the spacecraft and telescope assemblies within the facility’s largest clear room, based on a statement from NASA.
Roman is designed to survey the universe with unprecedented efficiency using two primary instruments: the Wide Field Instrument (WFI) — a powerful infrared camera with a field of view larger than that of the Hubble Space Telescope at comparable resolution — and a next-generation Coronagraph Instrument that will image exoplanets by blocking light from distant stars, making it easier to see the planets in orbit around them. Together, these instruments will map cosmic structures on grand scales, probe dark energy, measure the distribution of dark matter, detect isolated black holes through microlensing and identify potentially tens of thousands of distant exoplanets, according to the statement.
With physical construction complete, Roman now shifts into a lengthy campaign of environmental and performance testing under simulated space conditions designed to verify that the spacecraft can survive the stresses of launch and operate as intended once in space. After that, the telescope will be shipped to NASA’s Kennedy Space Center in Florida this summer for final processing and integration with its launch vehicle. While the mission is slated to launch by May 2027, it could be ready as early as fall 2026, NASA officials said.
If all goes as planned, Roman will launch aboard a SpaceX Falcon Heavy rocket to a gravitationally stable orbit around the sun nearly a million miles from Earth. During its planned five-year primary mission, Roman is expected to observe billions of galaxies and hundreds of millions of stars, providing new clues about the accelerating expansion of the universe. Mission scientists also expect the telescope to detect more than 100,000 exoplanets by monitoring subtle gravitational lensing events, whereby a larger foreground object magnifies the light from a more distant source that cannot otherwise be observed directly.
“With Roman’s construction complete, we are poised at the brink of unfathomable scientific discovery,” Julie McEnery, Roman’s senior project scientist at NASA Goddard, said in the statement. “We stand to learn a tremendous amount of new information about the universe very rapidly after Roman launches.”
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