宇宙学相变对引力波的自洽预测

arXiv - PHYS - High Energy Physics - Phenomenology Pub Date : 2024-09-10 DOI:arxiv-2409.06599

Xiao Wang, Chi Tian, Csaba Balázs

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引用次数: 0

摘要

宇宙学相变产生的引力波是基础物理学的新探针，因此精确计算引力波对于揭示早期宇宙的各种奥秘至关重要。在这项工作中，我们提出了一个框架，能够对这种由声波引发的引力波进行一致的计算。从拉格朗日开始，这个框架以自洽的方式整合了一阶相变的动力学计算，消除了传统方法通常引入的各种近似。我们方法的核心是对相变流体力学进行一致评估，每一步都始终遵循拉格朗日。我们用 SM+$|H|^6$ 模型演示了我们框架的应用，并推导出了相应的引力波频谱。我们的框架为从相变中精确预测引力波奠定了坚实的基础。

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Self-consistent prediction of gravitational waves from cosmological phase transitions

Gravitational waves from cosmological phase transitions are novel probes of fundamental physics, making their precise calculation essential for revealing various mysteries of the early Universe. In this work we propose a framework that enables the consistent calculation of such gravitational waves sourced by sound waves. Starting from the Lagrangian, this framework integrates the calculation of the dynamics of first-order phase transitions in a self-consistent manner, eliminating various approximations typically introduced by conventional methods. At the heart of our approach is the congruous evaluation of the phase transition hydrodynamics that, at every step, is consistently informed by the Lagrangian. We demonstrate the application of our framework using the SM+$|H|^6$ model, deriving the corresponding gravitational wave spectrum. Our framework establishes a robust foundation for the precise prediction of gravitational waves from phase transitions.

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arXiv - PHYS - High Energy Physics - Phenomenology

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