Surveying the SkAI: Illinois Tech鈥檚 Astronomy Program Begins Its Orbit

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By Tom Linder
Headshot of Assistant Professor of Physics Emily Leiner

By taking a small step to join the in spring 2024, Illinois Institute of Technology鈥檚 burgeoning astronomy program has taken a giant leap forward.

Leading the charge is Assistant Professor of Physics Emily Leiner, who sees joining the alliance as a gamechanger that will help provide new research opportunities to students and faculty alike.

鈥淭he LSST Discovery Alliance is a network of universities and other institutions that have come together and formed a nonprofit organization that directs a lot of scientific programming for the LSST survey,鈥 says Leiner. 鈥淚t really opens up options for our students to be involved in a wider network of astronomers and astrophysicists who are affiliated with the [Vera C.] Rubin Observatory and LSST.鈥

The LSST survey鈥攚hich will study dark energy and dark matter, map objects within our solar system, and detect transient events such as supernovae鈥攚ill be conducted by the 8.4-meter that is currently under construction in Chile. With first light scheduled for summer 2025, the telescope will photograph the entire sky every few nights, generating a massive amount of data for members in the alliance to analyze.

鈥淭he Rubin Observatory is going to generate terabytes and terabytes of data every single night that needs to be analyzed,鈥 says Leiner. 鈥淥ne of the really important things is having tools in place for people to actually use that data and training people how to use these tools. That鈥檚 one of LSST鈥檚 big missions: what tools do we need? How can we do trainings where we actually plug researchers in to people who have developed these tools?鈥

Studying transient events, one of the LSST survey鈥檚 goals, is a large part of Leiner鈥檚 research. In particular, Leiner is interested in the interactions within binary star systems, which in some cases lead to the two stars merging together in an explosive event.

While extremely bright supernovae are the most well-known type of transient event, there are many explosions taking place across the universe that aren鈥檛 as bright, but still provide significant insight into stellar evolution.

鈥淪ome of these mergers are hard to see because they are fainter, so we can鈥檛 see tons of extragalactic sources,鈥 says Leiner. 鈥淲e鈥檙e going to detect a lot of these fainter transients that we haven鈥檛 detected very many of. We haven鈥檛 imaged very many of those kinds of events. It鈥檚 really going to be very exciting because it鈥檚 going to show us the lower luminosity end of these explosive transients that we really don鈥檛 know much about.鈥

One big question still needs to be answered: how will all that data be processed?

Artificial intelligence will play a significant role. In September Illinois Tech was announced as a satellite partner in the that aims to create innovative AI tools for astronomy research. The SkAI Institute has received a $20 million National Science Foundation grant that is meant to accelerate astronomy鈥檚 data-driven revolution.

鈥淎t the institute, they鈥檙e developing AI lesson plans, projects we can implement into our courses鈥攕uch as our astronomy courses, for example鈥攐r we can have guest lecturers come in and talk about methodology in AI and machine learning that鈥檚 used in astronomy,鈥 says Leiner. 鈥淚t鈥檒l create a lot of research opportunities in the 电车无码 area.鈥

Having only started its astrophysics program in 2016, Illinois Tech鈥檚 membership in both the LSST Discovery Alliance and the SkAI Institute marks a new phase for the young program as the study of the universe continues to evolve.

鈥淚t鈥檚 really exciting for us as an institute that we鈥檙e entering some of these really big collaborations in the astronomy world,鈥 says Leiner. 鈥淲e are this nascent program that鈥檚 just sprung up鈥攖wo faculty. I think it鈥檚 really amazing that we鈥檙e able to get our students involved in the wider astronomical community.鈥