Gravitational wave signatures and detectability of the mass transfer effect in compact binaries

arXiv - PHYS - General Relativity and Quantum Cosmology Pub Date : 2024-09-06 DOI:arxiv-2409.04020

Zi-Han Zhang, Tan Liu, Shenghua Yu, Zong-Kuan Guo

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Abstract

The mass transfer process is prevalent during the inspiral phase of compact binary systems. Our study focuses on systems comprising low-mass white dwarfs, particularly in neutron star-white dwarf binaries and double white dwarf binaries, where a stable mass transfer process occurs at low frequencies. By analyzing the evolution of gravitational wave frequencies in the presence of mass transfer within quasi-circular orbits, we derive an analytical expression for the time-dependent frequency across different frequency bands and the waveforms emitted by compact binaries. Considering gravitational waves emitted by compact binaries in the $1\thicksim10$ mHz band, based on the Fisher analysis, we find that the mass transfer rate can be measured as accurately as $10^{-7} M_\odot/\text{year}$ by space-based gravitational-wave detectors with a signal-to-noise ratio of the order of $10^3$. Including the mass transfer effect in the waveforms provides a new possibility to measure the individual masses of double white dwarf binaries. The relative error of measured white dwarf masses can be down to the order of $0.01$.

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紧凑双星中的引力波特征和质量转移效应的可探测性

质量转移过程在紧凑双星系统的吸积阶段非常普遍。我们的研究重点是由低质量白矮星组成的系统，尤其是中子星-白矮星双星和双白矮星双星，在这些系统中，质量转移过程在低频下稳定发生。通过分析准圆轨道内存在质量转移时引力波频率的演变，我们得出了紧凑双星发射的不同频段和波形的随时间变化的频率分析表达式。考虑到紧凑双星在1\thicksim10$ mHz频段上发射的引力波，基于费舍尔分析，我们发现质量转移率可以精确测量到$10^{-7}。M_\odot/\text{year}$，信噪比为10^3$。将质量转移效应纳入波形为测量双白矮星双星的单个质量提供了一种新的可能性。测量到的白矮星质量的相对误差可以低至 0.01 美元的数量级。

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arXiv - PHYS - General Relativity and Quantum Cosmology

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