Unified view of scalar and vector dark matter solitons

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-06-07 DOI:arxiv-2406.05031

Hong-Yi Zhang

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Abstract

The existence of solitons -- stable, long-lived, and localized field configurations -- is a generic prediction for ultralight dark matter. These solitons, known by various names such as boson stars, axion stars, oscillons, and Q-balls depending on the context, are typically treated as distinct entities in the literature. This study aims to provide a unified perspective on these solitonic objects for real or complex, scalar or vector dark matter, considering self-interactions and nonminimal gravitational interactions. We demonstrate that these solitons share universal nonrelativistic properties, such as conserved charges, mass-radius relations, stability and profiles. Without accounting for alternative interactions or relativistic effects, distinguishing between real and complex scalar dark matter is challenging. However, self-interactions differentiate real and complex vector dark matter due to their different dependencies on the macroscopic spin density of dark matter waves. Furthermore, gradient-dependent nonminimal gravitational interactions impose an upper bound on soliton amplitudes, influencing their mass distribution and phenomenology in the present-day universe.

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标量和矢量暗物质孤子的统一观点

孤子的存在--稳定、长寿命和局部场配置--是对超轻暗物质的一般预测。这些孤子因语境不同而被称为玻色子星、轴子星、振荡子和 Q 球等不同名称，在文献中通常被视为独特的存在。本研究旨在提供一个统一的视角来看待这些真实或复杂、标量或矢量暗物质的孤子对象，同时考虑自相互作用和非最小引力相互作用。我们证明，这些孤子具有普遍的非相对论性质，如守恒电荷、质量半径关系、稳定性和轮廓。如果不考虑替代性相互作用或相对论效应，区分真实和复杂标量暗物质就具有挑战性。此外，依赖梯度的非最小引力相互作用对孤子振幅施加了上限，影响了它们在当今宇宙中的质量分布和现象学。

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arXiv - PHYS - Pattern Formation and Solitons

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