Constraints on the maximal number of dark degrees of freedom from black hole evaporation, cosmic rays, colliders, and supernovae

Christopher Ewasiuk, Stefano Profumo
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Abstract

A dark sector with a very large number of massive degrees of freedom is generically constrained by radiative corrections to Newton's constant. However, there are caveats to this statement, especially if the degrees of freedom are light or mass-less. Here, we examine in detail and update a number of constraints on the possible number of dark degrees of freedom, including from black hole evaporation, from perturbations to systems including an evaporating black hole, from direct gravitational production at colliders, from high-energy cosmic rays, and from supernovae energy losses.
黑洞蒸发、宇宙射线、对撞机和超新星对最大暗自由度数量的约束
具有大量大质量自由度的暗扇区一般受牛顿常数辐射修正的约束。然而,这种说法也有一些注意事项,特别是当自由度为轻度或无质量时。在这里,我们详细研究并更新了对暗自由度可能数量的一系列约束,包括来自黑洞蒸发、对包括蒸发黑洞在内的系统的扰动、对撞机的直接引力产生、高能宇宙射线以及超新星能量损失。
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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