Detecting electric charge with Extreme Mass Ratio Inspirals
Abstract
We consider extreme mass ratio inspirals during which an electrically charged compact object with mass mp and the charge to mass ratio q inspirals around a Schwarzschild black hole of mass M. Using the Teukolsky and generalized Sasaki-Nakamura formalisms for the gravitational and electromagnetic perturbations around a Schwarzschild black hole, we numerically calculate the energy flux of both gravitational and electromagnetic waves induced by a charged particle moving in circular orbits. With one year observation of these extreme mass ratio inspirals, we show that space-based gravitational wave detector such as the Laser Interferometer Space Antenna can detect the charge to mass ratio as small as q 10-3.
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