de Cesare Marco, Moffat John W, Sakellariadou Mairi
1Theoretical Particle Physics and Cosmology Group, Department of Physics, King's College London, Strand, London, WC2R 2LS UK.
2Perimeter Institute for Theoretical Physics, Waterloo, ON N2L 2Y5 Canada.
Eur Phys J C Part Fields. 2017;77(9):605. doi: 10.1140/epjc/s10052-017-5183-0. Epub 2017 Sep 14.
We introduce an extension of the Standard Model and General Relativity built upon the principle of local conformal invariance, which represents a generalization of a previous work by Bars, Steinhardt and Turok. This is naturally realized by adopting as a geometric framework a particular class of non-Riemannian geometries, first studied by Weyl. The gravitational sector is enriched by a scalar and a vector field. The latter has a geometric origin and represents the novel feature of our approach. We argue that physical scales could emerge from a theory with no dimensionful parameters, as a result of the spontaneous breakdown of conformal and electroweak symmetries. We study the dynamics of matter fields in this modified gravity theory and show that test particles follow geodesics of the Levi-Civita connection, thus resolving an old criticism raised by Einstein against Weyl's original proposal.
我们引入了一种基于局部共形不变性原理构建的标准模型和广义相对论的扩展理论,它是对Bars、Steinhardt和Turok之前工作的一种推广。通过采用一类特殊的非黎曼几何作为几何框架,这一理论得以自然实现,这类几何最早由外尔研究。引力部分因一个标量场和一个矢量场而得到丰富。后者具有几何起源,代表了我们方法的新颖之处。我们认为,由于共形和电弱对称性的自发破缺,物理尺度可以从一个没有有量纲参数的理论中出现。我们研究了这种修正引力理论中物质场的动力学,并表明测试粒子遵循列维 - 奇维塔联络的测地线,从而解决了爱因斯坦对外尔原始提议提出的一个旧有批评。
