Colloquium: Dr. Anna-Christina Eilers | MIT
In-Person PHYS 401
Wednesday, May 1, 2024 · 11 AM - 12 PM
TITLE: "The Formation and Growth of Supermassive Black Holes”
ABSTRACT: The existence of luminous quasars hosting supermassive black holes (SMBHs) within the first billion years of cosmic history challenges our understanding of black hole growth. An important piece to the puzzle is the duty cycle of quasars, the fraction of cosmic time that galaxies shine as active quasars and during which the bulk of the black hole growth occurs. In this talk I will present two new avenues towards understanding the early growth phases of SMBHs: I will show a novel method to constrain the timescales of quasar activity using the extent of the ionized regions around quasars, as well as present the first quasar-galaxy cross-correlation measurement at z>6 using recent observations from the James Webb Space Telescope that allow us to estimate the quasars' host dark matter halo mass and duty cycle. We find that SMBHs seem to grow on much shorter timescales than expected, providing a potential solution to the long-standing puzzle of early black hole growth. I will show how we aim to understand the dominant processes that govern black hole growth using a combination of multi-wavelength observations and data-driven models.
ABSTRACT: The existence of luminous quasars hosting supermassive black holes (SMBHs) within the first billion years of cosmic history challenges our understanding of black hole growth. An important piece to the puzzle is the duty cycle of quasars, the fraction of cosmic time that galaxies shine as active quasars and during which the bulk of the black hole growth occurs. In this talk I will present two new avenues towards understanding the early growth phases of SMBHs: I will show a novel method to constrain the timescales of quasar activity using the extent of the ionized regions around quasars, as well as present the first quasar-galaxy cross-correlation measurement at z>6 using recent observations from the James Webb Space Telescope that allow us to estimate the quasars' host dark matter halo mass and duty cycle. We find that SMBHs seem to grow on much shorter timescales than expected, providing a potential solution to the long-standing puzzle of early black hole growth. I will show how we aim to understand the dominant processes that govern black hole growth using a combination of multi-wavelength observations and data-driven models.