Event Horizon Telescope

Interview with Robert M. Wald, Charles H. Swift Distinguished Service Professor of Physics at the University of Chicago, where he also has appointments with the Kadanoff Center and the Kavli Institute for Cosmological Physics. Wald recounts his childhood in New York, he describes the tragedy of losing his parents in an airplane crash when he very young, and he explains the ongoing legacy of his father Abraham Wald who was a prominent professor of statistics at Columbia. He describes his high school education at Stuyvesant and his decision to pursue a physics degree at Columbia, where he became close with Alan Sachs, who supervised him at Nevis Laboratory. Wald explains his decision to focus on general relativity for graduate school and his interest in working with John Wheeler at Princeton. He describes the excitement surrounding recent advances in approaching astrophysics through relativity, the significance of the discovery of pulsars and the field of black hole uniqueness, and he discusses his postdoctoral research with Charles Misner at the University of Maryland. Wald describes the impact of Saul Teukolsky’s discovery of a variable Weyl tensor component that satisfied a decoupled equation, and he explains the circumstances leading to his faculty position at Chicago, where he was motivated to work with Bob Geroch. He reflects on the experience writing Space, Time, and Gravity, the advances in black hole collapse research, and he explains why he felt the field needed another textbook which motivated him to write General Relativity. Wald discusses his work on the Hawking Effect and his long-term interest in quantum field theory, and he explains the influence of Chandrasekhar on his research. He describes his contributions to the LIGO collaboration, and he explains what is significant about the Event Horizon Telescope’s ability to capture an image of a black hole. Wald explains the state of gravitational radiation research and the accelerating universe, he prognosticates on what advances might allow for a unification of gravity and the Standard Model, and he explains why dark energy is apparently a cosmological constant. At the end of the interview, Wald discusses his recent work on the gravitational memory effect and, looking to the future, he explains his interest to continue working to understand the S-matrix in quantum electrodynamics.

Interview with Feryal Ozel, professor of astronomy and physics at the University of Arizona. Ozel recounts her childhood and family background in Istanbul and how her interest in science was fostered both at home and at the all-girls international school she attended through 12th grade. She describes the opportunities that led to her enrollment at Columbia University for her undergraduate education, where she majored in physics and applied math and where Jacob Shaham influenced her interest in neutron stars. She describes a formative summer internship at CERN where she worked on supersymmetric decays of the Higgs boson, and a postgraduate year at the Niels Bohr Institute, before she began her graduate work at Harvard. Ozel discusses her thesis research on magnetars under the direction of Ramesh Narayan and she describes her postdoctoral position at the Institute for Advanced Study as a Hubble fellow. She describes the academic and family considerations that made Arizona an attractive option and she explains the mechanics behind funding from NASA and the NSF. Ozel describes her favorite physics classes to teach, how she sees her role as a mentor to women students and students of under-represented groups, and she surveys recent developments in neutron star astrophysics and the interaction of gas and black holes. She discusses her contributions to the Event Horizon collaboration, and she relates her ideas on the significance of seeing a photograph of a black hole without needing observational evidence to know that black holes exist. Ozel describes her motivations in serving in scientific advisory roles and the importance of science communication and how advances in computational power have revolutionized astrophysics. At the end of the interview, Ozel discusses the outstanding question mark about making gravity compatible with how we understand the subatomic world and how this serves as a starting point for future research oriented toward fundamental discovery, and why she is particularly interested in continuing to work on black hole imaging.