Are dark matter and dark energy omnipresent?

IF 3.6 3区物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS

Classical and Quantum Gravity Pub Date : 2025-03-21 DOI:10.1088/1361-6382/adbed1

Richard Lieu

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引用次数: 0

Abstract

A set of temporal singularities (transients) in the mass-energy density and pressure, bearing a specific mathematical structure which represents a new solution to the continuity equation (i.e. conservation of mass-energy) and satisfying the strong energy condition, is proposed to account for the expansion history of a homogeneous Universe, and the formation and binding of large scale structures as a continuum approximation of their cumulative effects. These singularities are unobservable because they occur rarely in time and are unresolvably fast, and that could be the reason why dark matter and dark energy have not been found. Implication on inflationary cosmology is discussed. The origin of these temporal singularities is unknown, safe to say that the same is true of the moment of the Big Bang itself. This work complements a recent paper, where a topological defect in the form of a spatial, spherical shell of density singularity giving rise to a 1/r attractive force (to test particles of positive mass) but zero integrated mass over a large volume of space, was proposed to solve the dark matter problem in bound structures but not cosmic expansion. The idea also involved a negative density, which is not present in the current model.

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暗物质和暗能量是否无所不在？

提出了一组质能密度和压力的时间奇点（瞬态），具有特定的数学结构，代表了连续性方程（即质能守恒）的新解，并满足强能量条件，以解释均匀宇宙的膨胀历史，以及大尺度结构的形成和结合作为其累积效应的连续统近似。这些奇点是不可观测的，因为它们在时间上很少发生，而且速度快得不可解，这可能就是暗物质和暗能量没有被发现的原因。讨论了暴胀宇宙论的意义。这些时间奇点的起源是未知的，可以肯定地说，大爆炸本身的时刻也是如此。这项工作补充了最近的一篇论文，该论文提出了一种空间拓扑缺陷，密度奇点的球形壳会产生1/r的引力（用于测试正质量的粒子），但在大体积空间上的综合质量为零，可以解决束缚结构中的暗物质问题，但不能解决宇宙膨胀问题。这个想法还涉及到负密度，这在当前的模型中并不存在。

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

Classical and Quantum Gravity 物理-天文与天体物理

CiteScore

7.00

自引率

8.60%

发文量

301

审稿时长

2-4 weeks

期刊介绍： Classical and Quantum Gravity is an established journal for physicists, mathematicians and cosmologists in the fields of gravitation and the theory of spacetime. The journal is now the acknowledged world leader in classical relativity and all areas of quantum gravity.