利用 LATTICEEASY* 预热对实际标量膨胀的限制

IF 3.6 2区物理与天体物理 Q1 PHYSICS, NUCLEAR

中国物理C Pub Date : 2024-05-31 DOI:10.1088/1674-1137/ad34bd

Wei Cheng, 伟程, Tong Qin, 通秦, Jiujiang Jiang, 玖江姜, Ruiyu Zhou and 瑞雨周

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引用次数: 0

摘要

在本文中，我们利用 LATTICEEASY 仿真对真实的标量膨胀进行了详细研究，以探究预热现象。一般来说，非最小耦合的标量膨胀势可以用四元势来近似。我们观察到这种势的演化行为不受耦合系数的影响。此外，标量谱指数（）和张量与标量功率比（r）的理论预测也与该系数无关。因此，该模型的系数不受普朗克观测数据的限制。幸运的是，膨胀后预热的特性为研究这些系数提供了一种可行的方法。通过 LATTICEEASY 模拟，我们追踪了预热过程中粒子数量密度、尺度因子和能量密度的演变。根据预热和膨胀模型之间的分析关系，我们成功地验证了在 LATTICEEASY 模拟中使用预热的真实标量膨胀模型。

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Constraints on real scalar inflation from preheating using LATTICEEASY*

In this paper, we undertake a detailed study of real scalar inflation using LATTICEEASY simulations to investigate preheating phenomena. Generally, the scalar inflation potential with non-minimal coupling can be approximated using a quartic potential. We observe that the evolutionary behavior of this potential remains unaffected by the coupling coefficient. Furthermore, the theoretical predictions for the scalar spectral index ( ) and tensor-to-scalar power ratio (r) are independent of this coefficient. Consequently, the coefficients of this model are not constrained by Planck observations. Fortunately, the properties of preheating after inflation provide a viable approach to examining these coefficients. Through LATTICEEASY simulations, we trace the evolution of particle number density, scale factor, and energy density during the preheating process. Subsequently, we derive the parameters, such as the energy ratio (γ) and the e-folding number of preheating ( ), which facilitate further predictions of and r. We successfully validate real scalar inflation model using preheating in LATTICEEASY simulations based on the analytical relationship between preheating and inflation models.

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来源期刊

中国物理C 物理-物理：核物理

CiteScore

6.50

自引率

8.30%

发文量

8976

审稿时长

1.3 months

期刊介绍： Chinese Physics C covers the latest developments and achievements in the theory, experiment and applications of: Particle physics; Nuclear physics; Particle and nuclear astrophysics; Cosmology; Accelerator physics. The journal publishes original research papers, letters and reviews. The Letters section covers short reports on the latest important scientific results, published as quickly as possible. Such breakthrough research articles are a high priority for publication. The Editorial Board is composed of about fifty distinguished physicists, who are responsible for the review of submitted papers and who ensure the scientific quality of the journal. The journal has been awarded the Chinese Academy of Sciences ‘Excellent Journal’ award multiple times, and is recognized as one of China''s top one hundred key scientific periodicals by the General Administration of News and Publications.