Abstract
ABSTRACT We study the Kozai–Lidov mechanism in a hierarchical triple system in detail by the direct integration of the first-order post-Newtonian equations of motion. We analyse a variety of models with a pulsar to evaluate the cumulative shift of the periastron time of a binary pulsar caused by the gravitational wave emission in a hierarchical triple system with Kozai–Lidov mechanism. We compare our results with those by the double-averaging method. The deviation in the eccentricity, even if small, is important in the evaluation of the emission of the gravitational waves. We also calculate the cumulative shift of the periastron time by using obtained osculating orbital elements. If Kozai–Lidov oscillations occur, the cumulative shift curve will bend differently from that of the isolated binary. If such a bending is detected through the radio observation, it will be the first indirect observation of gravitational waves from a triple system.
Highlights
Gravitational wave (GW) is one of the most interesting phenomena predicted by general relativity
In this paper, taking the 1st post-Newtonian relativistic correction into account, we have studied the KL-oscillations in hierarchical triple systems with a pulsar and calculated the cumulative shift of periastron time (CSPT)
When the eccentricity of the binary pulsar is excited by KL-oscillation, it enhances GW emission from the binary and it changes the shape of the CSPT curve
Summary
Gravitational wave (GW) is one of the most interesting phenomena predicted by general relativity. One of the most remarkable phenomena in hierarchical triple systems is the Kozai-Lidov (KL) mechanism (Kozai 1962; Lidov 1962) It is one of the most important orbital resonances that is mainly characterised by the secular changes of the eccentricity of the inner binary and the relative inclination between inner and outer orbits. Some authors discussed about the waveform of GW from a binary in a hierarchical triple system and its observability (Hoang et al 2019; Randall & Xianyu 2019; Gupta et al 2020) If such systems exist and include pulsars as components of the binaries, the radio signal from the pulsar should be detected.
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