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Gravitational waves from eccentric extreme mass-ratio inspirals as probes of scalar fields

Chao ZhangSchool of Physics and Astronomy, Shanghai Jiao Tong University, 800 Dongchuan Rd, Shanghai 200240, ChinaYungui GongSchool of Physics, Huazhong University of Science and Technology, 1037 LuoYu Rd, Wuhan, Hubei 430074, ChinaDicong LiangKavli Institute for Astronomy and Astrophysics, Peking University, No.5 Yiheyuan Road, Beijing 100871, ChinaBin WangCenter for Gravitation and Cosmology, Yangzhou University, 88 South Daxue Rd, Yangzhou, Jiangsu 225009, China
2023en
ABI

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Abstract We study eccentric orbits of the Schwarzschild spacetime for extreme mass ratio system (EMRI) in modified gravity theories with additional scalar fields. Due to the additional energy and angular momentum carried away by the scalar field, the orbit of the EMRI in modified gravity decays faster than that in general relativity. The time that it takes the eccentricity e to reach the minimum is shorter and the values of the semi-latus rectum p and e at the turning point when e reaches the minimum are bigger for larger scalar charge d . In addition to the calculation of energy fluxes with numerical methods, we also use the Post-Newtonian expansion of the rate of energy carried away by the scalar field in eccentric orbits to understand the behaviors of the energy emission. By adding the scalar flux to the open code FastEMRIWaveforms of the Black Hole Perturbation Toolkit, we numerically generate fast gravitational waveforms for eccentric EMRIs with scalar fields and use the faithfulness between waveforms with and without the scalar charge to discuss the detection of scalar charge d . The detection error of the scalar charge is also estimated with the method of the Fisher information matrix.

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