Recovering a phase transition signal in simulated LISA data with a modulated galactic foreground

IF 5.3 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Journal of Cosmology and Astroparticle Physics Pub Date : 2025-04-16 DOI:10.1088/1475-7516/2025/04/052

Mark Hindmarsh, Deanna C. Hooper, Tiina Minkkinen and David J. Weir

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Abstract

Stochastic backgrounds of gravitational waves from primordial first-order phase transitions are a key probe of physics beyond the Standard Model. They represent one of the best prospects for observing or constraining new physics with the LISA gravitational wave observatory. However, the large foreground population of galactic binaries in the same frequency range represents a challenge, and will hinder the recovery of a stochastic background. To test the recoverability of a stochastic gravitational wave background, we use the LISA Simulation Suite to generate data incorporating both a stochastic background and an annually modulated foreground modelling the galactic binary population, and the Bayesian analysis code Cobaya to attempt to recover the model parameters. By applying the Deviance Information Criterion to compare models with and without a stochastic background we place bounds on the detectability of gravitational waves from first-order phase transitions. By further comparing models with and without the annual modulation, we show that exploiting the modulation improves the goodness-of-fit and gives a modest improvement to the bounds on detectable models.

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在银河系前景调制的模拟LISA数据中恢复相变信号

来自原始一阶相变的引力波随机背景是超越标准模型物理学的一个关键探测器。它们是利用 LISA 引力波天文台观测或约束新物理学的最佳前景之一。然而，同一频率范围内的大量星系双星前景是一个挑战，并将阻碍随机背景的恢复。为了测试随机引力波背景的可恢复性，我们使用 LISA 仿真套件生成数据，其中包括随机背景和模拟银河双星群的年调制前景，并使用贝叶斯分析代码 Cobaya 尝试恢复模型参数。通过应用偏差信息准则（Deviance Information Criterion）来比较有随机背景和无随机背景的模型，我们为一阶相变引力波的可探测性设定了边界。通过进一步比较有年度调制和无年度调制的模型，我们发现利用调制可以提高拟合优度，并适度改善可探测模型的边界。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Cosmology and Astroparticle Physics 地学天文-天文与天体物理

CiteScore

10.20

自引率

23.40%

发文量

632

审稿时长

1 months

期刊介绍： Journal of Cosmology and Astroparticle Physics (JCAP) encompasses theoretical, observational and experimental areas as well as computation and simulation. The journal covers the latest developments in the theory of all fundamental interactions and their cosmological implications (e.g. M-theory and cosmology, brane cosmology). JCAP''s coverage also includes topics such as formation, dynamics and clustering of galaxies, pre-galactic star formation, x-ray astronomy, radio astronomy, gravitational lensing, active galactic nuclei, intergalactic and interstellar matter.