Resonant Trojan EMRIs with LISA
Myhaver, Vanessa
Myhaver, Vanessa
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Abstract
Extreme-mass-ratio inspirals (EMRI) are prospective sources for the detection of observational signals from the Laser Interferometer Space Antenna (LISA) mission, built to accurately detect and measure gravitational waves -- ripples in the curvature, and fabrics of space-time. EMRIs are typically comprised of a supermassive black hole (SMBH) one million times more massive than our Sun, and a stellar-origin black hole several orders of magnitude smaller. As the smaller black hole spirals into the supermassive black hole, thousands of gravitational waveforms serve as a precision probe for the extreme space-time curvature of the system. The goal of this research is to model the dynamics of and calculate the gravitational waveforms from “Trojan analog” EMRIs: multiple EMRIs in a single system, locked in 1:1 resonant orbits, analogous to Jupiter's Trojan asteroids. These Trojan EMRIs hold a mix of unique observational potentials from those of single EMRI systems, that may be detectable from the LISA mission, while simultaneously providing detailed orbital dynamics around a supermassive black hole.
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Graduate
Date
2021-01-01