Guoyang Fu, Yunqi Liu, Bin Wang, Jian-Pin Wu, Chao Zhang
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Probing Quantum Gravity Effects with Eccentric Extreme Mass-Ratio Inspirals
In this paper, we investigate the impact of loop quantum gravity (LQG) on
extreme mass-ratio inspirals (EMRIs), and the results indicate that LQG effects
cause the orbital decay to occur faster compared to the Schwarzschild case.
Furthermore, we use the augmented analytic kludge approach to generate EMRI
waveforms and study the LISA's capability to detect the LQG effect with
faithfulness. Additionally, employing the Fisher information matrix method for
parameter estimation, we estimate that after one year of observation, the
uncertainty in $r_0$ reduces to approximately $6.59\times 10^{-4}$ with a
signal-to-noise ratio of $49$.
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