分形宇宙学中的星系合并

IF 4.2 2区物理与天体物理 Q2 PHYSICS, PARTICLES & FIELDS

The European Physical Journal C Pub Date : 2025-04-24 DOI:10.1140/epjc/s10052-025-14191-0

Bruno J. Souza, Osvaldo L. Santos-Pereira, Marcelo B. Ribeiro

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引用次数: 0

摘要

本文讨论了星系合并对同时大爆炸的两个具有分形维数d的连续单分形星系分布系统的抛物lema - trer - tolman - bondi （LTB）宇宙学演化的影响。基于最近的经验发现，假设合并产生的星系质量可以用红移相关的衰减幂律来表示。提出的宇宙学模型通过包含估计模型径向密度的合并速率演化来修改相对论分形数分布。我们找到了一阶小合并率近似（SMRA）的数值解，结果表明分形星系分布在\(0.1<z<1.0\)范围内为\(D=1.5\)，在\(1<z<6\)范围内为\(D=0.5\)，正如最近的经验发现所表明的那样，SMRA允许对合并率幂律指数的模型进行一致的描述，考虑到分形星系分布从本群开始到\(q=0.2\)。在小于本超星系团的尺度上，在\(q=2.5\)和\(z=7\)上也发现了一致的值。这些结果表明，星系合并可以成功地纳入抛物型LTB分形宇宙学的动力学中。

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Galaxy mergers in a fractal cosmology

This work discusses the influence of galaxy mergers in the evolution of a parabolic Lemaître–Tolman–Bondi (LTB) cosmology with simultaneous big bang endowed with two consecutive single fractal galaxy distributions systems possessing fractal dimension D. Based on recent empirical findings, it is assumed that the resulting galaxy mass from mergers can be expressed by a redshift dependent decaying power law. The proposed cosmological model modifies the relativistic fractal number counts distribution by including a merger rate evolution that estimates the model’s radial density. Numerical solutions for the first order small-merger-rate approximation (SMRA) are found and the results show that a fractal galaxy distribution having \(D=1.5\) in the range \(0.1<z<1.0\), and \(D=0.5\) for \(1<z<6\), as suggested by recent empirical findings, the SMRA allows consistent description of the model for a merger rate power law exponent up to \(q=0.2\) considering a fractal galaxy distribution starting from the Local Group. Consistent values were also found up to \(q=2.5\) and \(z=7\) from a scale smaller than the Local Supercluster. These results show that galaxy mergers can be successfully incorporated into the dynamics of a parabolic LTB fractal cosmology.

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来源期刊

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.