Northwestern Events Calendar


Special Seminar: Lia Medeiros: New test of the black hole metric with EHT images of Sgr A*

When: Monday, August 8, 2022
11:00 AM - 12:00 PM Central

Where: 1800 Sherman Avenue, CIERA Cafe, Evanston, IL 60201 map it

Audience: Faculty/Staff - Student - Post Docs/Docs - Graduate Students

Contact: CIERA Astrophysics   (847) 491-8646

Group: CIERA - Special Seminars

Category: Lectures & Meetings


Northwestern University's Center for Interdisciplinary Exploration and Research in Astrophysics (CIERA) presents a Special Seminar featuring: 

Speaker: Lia Medeiros (NSF AAP Fellow, Institute for Advanced Study)

Talk Title: New test of the black hole metric with EHT images of Sgr A*


Our understanding of astrophysical black holes is predicated on the assumption that they are well described by the Kerr solution to Einstein’s equations. A promising avenue for testing the Kerr hypothesis is to detect the shadow a black hole casts on the surrounding emission and compare its size and shape to the predictions of the Kerr metric. New horizon-scale images of the Galactic Center black hole Sagittarius A* (Sgr A*) recently published by the Event Horizon Telescope (EHT) allow for new strong-field tests of the Kerr metric in a previously unexplored regime. In paper VI of the recent EHT publications we conduct a careful calibration between the geometrically defined black hole shadow and the observational ring feature, and arrive at a ~10% error bar for the measured size of the black hole shadow. This error bar is significantly tighter than that of M87 due to the exquisite mass over distance measurements for Sgr A*. We use this bound to constrain metrics that parametrically deviate from Kerr as well as the charges of several known metrics. We also explore possible alternatives to an event horizon and use the size of the emission region measured by the EHT combined with multi-wavelength observations to rule out a thermal surface. Additionally, the brightness depression in our images shows that a reflective surface is unlikely. Combined with the results for stellar mass black holes from gravitational wave observations and the EHT constraints for M87, our results show strong agreement with the Kerr prediction over ten orders of magnitude in mass.

Host: Sasha Tchekhovskoy 

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