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We derive the effective one-body motion of the dyonic binary and explore features of the static orbit including the chaotic behavior. By using the post-Newtonian method, we calculate the total… Click to show full abstract
We derive the effective one-body motion of the dyonic binary and explore features of the static orbit including the chaotic behavior. By using the post-Newtonian method, we calculate the total emission rate of energy and angular momentum due to gravitational radiation and electromagnetic radiation for circular orbits on a Poincar\'{e} Cone. Moreover, we get the evolution of the orbit and calculate the merger time of the dyonic binary. We find the electric and magnetic charges could significantly suppress the merger time of the dyonic binary. The results of this paper provide rich information on the dyonic binary and can be used to test black holes with magnetic charges.
Journal Title: Physical Review D
Year Published: 2020
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