查利斯宇宙学中暗物质玻色-爱因斯坦凝聚过程中的宇宙学相位交叉动力学

IF 4.2 2区 物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS
Subhra Mondal, Amitava Choudhuri
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引用次数: 0

摘要

在宇宙演化过程中,当宇宙玻色子气体的温度降到某个阈值以下时,玻色-爱因斯坦凝聚过程就会在整个宇宙历史的不同点上发生。在这个模型中,暗物质被概念化为一种非相对论的牛顿引力凝聚物,受格罗斯-皮塔耶夫斯基-泊松系统的支配。在本研究中,我们将玻色-爱因斯坦凝聚过程视为一种近似的一阶相变,并将其置于被称为查利斯宇宙学的修正宇宙学框架内,从而研究玻色-爱因斯坦凝聚过程。我们研究了表征宇宙演化动力学的相关物理量的演变,包括玻色-爱因斯坦凝聚相变发生之前、期间和之后的能量密度、温度、红移、尺度因子、哈勃参数和无量纲减速参数。此外,我们还特别研究了以暗物质的正常相和凝结相混合为特征的宇宙演化的特定时代。我们分析了一个重要的随时间变化的参数--凝结暗物质分数--在整个凝结过程中的时间演变行为,并找到了查利斯宇宙学模型中暗物质凝结的持续时间。我们发现,与标准宇宙学模型相比,在查利斯修正宇宙学框架中玻色-爱因斯坦凝聚暗物质的存在极大地改变了宇宙的宇宙学演化。我们还发现,对于一个典型的查里斯非广延性参数值(\beta =0.35),该模型可以解释一个加速的宇宙,而不需要引用任何额外的能量成分,并解决我们宇宙的年龄问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamics of cosmological phase crossover during Bose–Einstein condensation of dark matter in Tsallis cosmology

During the cosmic evolution process, as the temperature of a cosmological boson gas falls below a certain threshold, a Bose–Einstein condensation process can occur at various points throughout the cosmic history of the Universe. In this model, dark matter, conceptualized as a non-relativistic, Newtonian gravitational condensate is governed by the Gross–Pitaevskii–Poisson system. In our present study, we investigate the Bose–Einstein condensation process of bosonic DM by treating it as an approximate first-order phase transition within a modified cosmological framework, known as Tsallis cosmology. We examine the evolution of relevant physical quantities characterizing the evolution dynamics of the Universe, including energy density, temperature, redshift, scale factor, Hubble parameter, and dimensionless deceleration parameter before, during, and following the Bose–Einstein condensation phase transition takes place. Additionally, we especially investigate the specific era of the evolution of the Universe characterized by a mixture of normal and condensate phases of dark matter. We analyze the behavior of temporal evolution of an important time-dependent parameter, called the condensate dark matter fraction throughout the condensation process and find the time duration of condensation of dark matter in the Tsallis cosmological model. We see that the presence of Bose–Einstein condensate dark matter in the framework of Tsallis-modified cosmology significantly alters the cosmological evolution of the Universe as compared to the standard model of cosmology. We also find for a typical value of Tsallis non-extensive parameter \(\beta =0.35\), the model could explain an accelerated Universe without invoking any additional energy component and solve the age problem of our Universe.

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来源期刊
The European Physical Journal C
The European Physical Journal C 物理-物理:粒子与场物理
CiteScore
8.10
自引率
15.90%
发文量
1008
审稿时长
2-4 weeks
期刊介绍: Experimental Physics I: Accelerator Based High-Energy Physics Hadron and lepton collider physics Lepton-nucleon scattering High-energy nuclear reactions Standard model precision tests Search for new physics beyond the standard model Heavy flavour physics Neutrino properties Particle detector developments Computational methods and analysis tools Experimental Physics II: Astroparticle Physics Dark matter searches High-energy cosmic rays Double beta decay Long baseline neutrino experiments Neutrino astronomy Axions and other weakly interacting light particles Gravitational waves and observational cosmology Particle detector developments Computational methods and analysis tools Theoretical Physics I: Phenomenology of the Standard Model and Beyond Electroweak interactions Quantum chromo dynamics Heavy quark physics and quark flavour mixing Neutrino physics Phenomenology of astro- and cosmoparticle physics Meson spectroscopy and non-perturbative QCD Low-energy effective field theories Lattice field theory High temperature QCD and heavy ion physics Phenomenology of supersymmetric extensions of the SM Phenomenology of non-supersymmetric extensions of the SM Model building and alternative models of electroweak symmetry breaking Flavour physics beyond the SM Computational algorithms and tools...etc.
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