General Relativity (GR) and the Standard Model (SM) of particle physics are two enormously successful frameworks for our understanding the fundamental laws of nature. However, these theoretical schemes are widely disconnected, logically independent and unrelated in scope. Yet, GR and SM at some point must intersect, producing claims about phenomena that should be reconciled. Be it as it may, both schemes share a common basic ground: symmetry under local Lorentz transformations. Here, we will focus on the consequences of assuming this feature from the beginning to combine geometry, matter fields and gauge interactions. We give a rough description of how this could be instrumental for the construction of a unified scheme of gravitation and particle physics.

中文翻译：

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引力在粒子物理学中的作用：一种统一的方法

广义相对论 (GR) 和粒子物理学的标准模型 (SM) 是我们理解自然基本定律的两个非常成功的框架。然而，这些理论方案在范围上广泛脱节、逻辑独立且不相关。然而，在某些时候，GR 和 SM 必须相交，产生关于应该调和的现象的主张。尽管如此，这两种方案都有一个共同的基本基础：局部洛伦兹变换下的对称性。在这里，我们将关注从一开始就假设这个特征来结合几何、物质场和规范相互作用的后果。我们粗略地描述了这如何有助于构建引力和粒子物理学的统一方案。