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ASTRONOMY COLLOQUIUM

Wednesday, November 13, 2024
4:00pm to 5:00pm
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Cahill, Hameetman Auditorium
The Present and Future of A New Era in High-Redshift Supernova Discovery
Justin Pierel, Einstein Fellow, Space Telescope Science Institute,

The high-redshift transient universe has been an unexplored field of astrophysics due to the vast amount of resources required to discover supernovae (SNe) at z>1. Even with the Hubble Space Telescope (HST), discoveries of the most distant stellar explosions have been restricted to z~2, including with the aid of gravitational lensing. Spectroscopy is critical to both classification and characterization of high-redshift SNe, but it is even more difficult than imaging and has been limited to z~1.5. With the launch of the James Webb Space Telescope (JWST), we have entered a new era of high-redshift SN discovery and understanding. In a relatively short time JWST has expanded our view of the transient universe to z~5, including hundreds of SNe and dozens of rest-frame UV-IR spectra for transients reaching z=3.6. The JWST SN sample with both imaging and spectroscopy now includes the most distant Type Ia SNe (used for cosmological measurements) yet discovered, three strongly lensed SNe, and a wide variety of core-collapse SN sub-types from a previously unexplored phase of the transient universe. I will summarize the range of discoveries made in the first ~2 years of JWST observations, the constraints gleaned from these exciting new objects, and our ongoing efforts to build the first statistical samples of high-redshift SNe. Looking ahead, these SNe give us a glimpse at what we can expect from the upcoming Nancy Grace Roman Space Telescope, which will revolutionize the discovery of distant stellar explosions.

For more information, please contact George Djorgovski by email at george@astro.caltech.edu or visit https://www.astro.caltech.edu.