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Assembly begins on NASA's next tool to study exoplanets by Staff Writers Washington DC (SPX) Dec 22, 2022
Scientists have discovered more than 5,000 exoplanets, or planets outside our solar system. As technologies for studying these worlds continue to advance, researchers may someday be able to search for signs of life on exoplanets that are similar in size, composition, and temperature to Earth. But to do that they'll need new tools, like those being tested on the Coronagraph Instrument on NASA's Nancy Grace Roman Space Telescope. The science instrument will block the light from each distant star it observes so that scientists can better see the planets around the star, and it will demonstrate technologies needed to eventually study potentially habitable planets with future missions. The Coronagraph Instrument team has already designed the cutting-edge instrument and built the components. Now they have to put the pieces together and run tests to make sure they operate as intended. "It's like all the separate tributaries are finally coming together to form the river," said Jeff Oseas, product delivery manager for the Coronagraph Instrument's optical subsystem at NASA's Jet Propulsion Laboratory in Southern California. The process kicked off recently at JPL and will take more than a year. Once complete, the Coronagraph Instrument will be shipped to the agency's Goddard Space Flight Center in Greenbelt, Maryland, and incorporated into the Roman observatory. JPL engineer Gasia Bedrosian leads the assembly and testing process as the instrument's integration and test product delivery manager. She likes to say that while integration and testing are technically the last steps in building an instrument, they're actually part of the process from the beginning. In 2018, Bedrosian started working on a set of assembly plans for something that's never been built before. She and her team then spent another two years collaborating with various subject matter experts and project members to review and adjust the plan, ensuring all the pieces would come together on time and in the right order. The process will resemble a well-choreographed ballet that involves heavy duty cranes, lasers, and vacuum chambers the size of buses. Roughly the size and shape of a baby grand piano, the Coronagraph Instrument is composed of two main sections that will stack on top of each another: the optical bench and the instrument electronics pallet. The more delicate of the two is the optical bench, which contains 64 elements, such as mirrors and filters, designed to remove as much starlight as possible without suppressing the light from planets. This approach to finding and studying exoplanets is called direct imaging, and it is expected to be the best way to study the atmospheres and surface features of rocky worlds similar to Earth. Some of the optical components on the Coronagraph Instrument are so small they're barely visible to the naked eye. The pallet, or bottom layer, houses the electronics that receive instructions from the Roman spacecraft and return the Coronagraph Instrument's scientific data. The electronics also control the mechanical components on the optical bench as well as the instrument heaters. The optical bench will be stacked by crane atop the electronics pallet. Because the two layers have to be aligned with each other to within a fraction of a millimeter, the team will use lasers to get them positioned just right over the course of four days.
Eye for Detail "We learned a lot from that exercise," said Bedrosian. "We could get a sense of how tight the access would be at certain points of integration by literally laying on the floor and getting visuals of under the instrument. It showed us when it would be beneficial to lift the entire instrument with a crane, or if we were going to need a specialized tool to do our work at that angle. It helped make a lot of our plans safer and simpler." Once assembled, the Coronagraph Instrument will undergo a series of tests, including almost a month of dynamical testing to simulate the rocket ride into space. It will then be put in a vacuum chamber that replicates the space environment to check that the hardware remains aligned and operating correctly. "It's exciting to finally start putting all the pieces together," said Bedrosian. "It's definitely a delayed gratification, because we've spent so long preparing. But now that we're here and my team members are talking about the hardware arriving, I can hear the excitement in their voices."
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