Measuring the circular polarization of gravitational waves with pulsar timing arrays

IF 5 2区 物理与天体物理 Q1 Physics and Astronomy Physical Review D Pub Date : 2024-11-07 DOI:10.1103/physrevd.110.103505
N. M. Jiménez Cruz, Ameek Malhotra, Gianmassimo Tasinato, Ivonne Zavala
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Abstract

The circular polarization of the stochastic gravitational wave background (SGWB) is a key observable for characterizing the origin of the signal detected by Pulsar Timing Array (PTA) collaborations. Both the astrophysical and the cosmological SGWB can have a sizeable amount of circular polarization, due to Poisson fluctuations in the source properties for the former, and to parity violating processes in the early universe for the latter. Its measurement is challenging since PTA are blind to the circular polarization monopole, forcing us to turn to anisotropies for detection. We study the sensitivity of current and future PTA datasets to circular polarization anisotropies, focusing on realistic modelling of intrinsic and kinematic anisotropies for astrophysical and cosmological scenarios respectively. Our results indicate that the expected level of circular polarization for the astrophysical SGWB should be within the reach of near future datasets, while for cosmological SGWB circular polarization is a viable target for more advanced SKA-type experiments.
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利用脉冲星定时阵列测量引力波的圆偏振
随机引力波背景(SGWB)的圆偏振是描述脉冲星定时阵列(PTA)合作探测到的信号来源的一个关键观测指标。天体物理学引力波背景和宇宙学引力波背景都可能有大量的圆偏振,前者是由于源特性中的泊松波动,后者是由于早期宇宙中的奇偶性违反过程。由于 PTA 对圆偏振单极子视而不见,因此对它的测量具有挑战性,迫使我们转而利用各向异性进行探测。我们研究了当前和未来的 PTA 数据集对圆偏振各向异性的敏感性,重点分别放在天体物理学和宇宙学情景下的本征各向异性和运动各向异性的现实建模上。我们的结果表明,天体物理学 SGWB 的圆偏振预期水平应在近期数据集的范围之内,而宇宙学 SGWB 的圆偏振则是更先进的 SKA 类实验的可行目标。
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来源期刊
Physical Review D
Physical Review D 物理-天文与天体物理
CiteScore
9.20
自引率
36.00%
发文量
0
审稿时长
2 months
期刊介绍: Physical Review D (PRD) is a leading journal in elementary particle physics, field theory, gravitation, and cosmology and is one of the top-cited journals in high-energy physics. PRD covers experimental and theoretical results in all aspects of particle physics, field theory, gravitation and cosmology, including: Particle physics experiments, Electroweak interactions, Strong interactions, Lattice field theories, lattice QCD, Beyond the standard model physics, Phenomenological aspects of field theory, general methods, Gravity, cosmology, cosmic rays, Astrophysics and astroparticle physics, General relativity, Formal aspects of field theory, field theory in curved space, String theory, quantum gravity, gauge/gravity duality.
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