Reexamination of the hierarchy problem from a novel geometric perspective

Hirofumi Sakuma, Izumi Ojima, Kazuya Okamura
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Abstract

A lucid interpretation of the longstanding hierarchy problem is proposed based on the unconventional model of the universe recently proposed by the authors. Our heuristic cosmological model is developed by considering Penrose and Petit's original ideas as the Weyl curvature hypothesis, conformal cyclic cosmology, and the twin universe model. The uniqueness of our model lies in its incorporation of dark energy and matter, and its single key parameter, adjusted by observational data, is the radius ($R_{dS}$) of a four-dimensional ($4D$) hypersphere called de Sitter space. We presuppose that our $4D$ universe originated from the spontaneous conformal symmetry (SCS) breaking of a light field with a null distance. We show that in this SCS breaking state, the energy--momentum tensor of the space-like electromagnetic field, whose existence is inevitable for quantum electromagnetic field interactions (Greenberg--Robinson theorem), becomes isomorphic to the divergence-free Einstein tensor in the general theory of relativity. Furthermore, we reveal the $R_{dS}$ dependency of the $4D$ gravitational field. Based on these findings, we show an intriguing relation between the magnitude of the gravitational coupling constant and $R_{dS}$. A solution to the hierarchy problem is derived by assuming that $R_{dS}$ depends on the "newly defined cosmological time".
从新颖的几何视角重新审视等级问题
根据作者最近提出的非常规宇宙模型,对长期存在的层次问题提出了清晰的解释。我们的启发式宇宙学模型是通过考虑彭罗斯和佩蒂特的韦尔曲率假说、保形循环宇宙学和孪生宇宙模型等原创思想而建立的。我们模型的独特之处在于它包含了暗能量和暗物质,其唯一的关键参数是被称为德西特空间的四维($4D$)超球的半径($R_{dS}$),该参数可根据观测数据进行调整。我们预先假定,我们的 $4D$ 宇宙起源于空距离光场的自发共形对称(SCS)破缺。我们证明,在这种 SCS 破缺状态下,类空间电磁场的能量-动量张量(其存在对于量子电磁场相互作用(格林伯格-罗宾逊定理)是不可避免的)变得与广义相对论中的无发散爱因斯坦张量同构。此外,我们还揭示了 $4D$ 引力场的 $R_{dS}$ 依赖性。基于这些发现,我们展示了引力耦合常数的大小与 $R_{dS}$ 之间的有趣关系。通过假设 $R_{dS}$ 取决于 "新定义的宇宙学时间",我们得出了层次问题的解决方案。
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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