利用Stokes参数估计超新星引力波圆偏振特征的可探测性

M. Chan, K. Hayama
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引用次数: 2

摘要

核心坍缩超新星引力波的圆偏振已被提出作为研究超新星核心内部旋转和物理特征的探针。然而,目前还不清楚如何探测到引力波的圆极化。我们开发了一种称为Stokes圆偏振算法的算法,用于计算Stokes参数,该算法与突发搜索管道相干波突发一起工作。利用SFHx波形和算法,我们估计了由先进LIGO、先进VIRGO和KAGRA组成的引力波探测器网络在2、5和10 kpc三种不同距离上的源的圆偏振特征(Stokes参数的V模式)的可探测性。使用贝叶斯因子,我们发现对于2 kpc和5 kpc,大多数源(分别为99.9%和58.2%)将检测到它们的V模式,而对于10 kpc,没有显著的V模式可检测到。此外,V模特征的重要性与引力波的两个极化相对于网络的可恢复性是一致的。
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Estimate of the detectability of the circular polarization signature of supernova gravitational waves using the Stokes parameters
The circular polarisation of gravitational waves from core collapse supernovae has been proposed as a probe to investigate the rotation and physical features inside the core of the supernovae. However, it is still unclear as to how detectable the circular polarisation of gravitational waves will be. We developed an algorithm referred to as the Stokes Circular Polarisation algorithm for the computation of the Stokes parameters that works with the burst search pipeline coherent WaveBurst. Employing the waveform SFHx and the algorithm, we estimate the detectability of the circular polarisation signatures (V mode of the Stokes parameters) for sources across the sky at three different distances 2, 5, and 10 kpc, for a network of gravitational wave detectors consisted of advanced LIGO, advanced VIRGO and KAGRA. Using the Bayes factor, we found that for 2 kpc and 5 kpc, the majority of the sources (99.9% and 58.2% respectively) will have their V mode detectable, while for 10 kpc, no significant V mode is detectable. In addition, the significance of the V mode signature are consistent with the recoverability of the two polarisations of gravitational waves with respect to the network.
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