尺度不变性和膨胀质量

I. Oda
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引用次数: 0

摘要

研究一类一般尺度不变标量量子场论及其对称破缺。基于维数恒等式,给出了当尺度不变性被自发打破时,膨胀在经典水平上是完全无质量的简明证明。另一方面,在广义维数恒等式的基础上,我们证明了尺度不变性被量子异常显式打破时,膨胀在量子水平上变得有质量。指出了用膨胀场代替重整化尺度的尺度正则化方法自发突破尺度不变性时的微妙之处。在这种情况下,即使在尺度对称的自发对称破坏之后,膨胀子在量子水平上仍然是无质量的,但是当无质量膨胀子非最低限度地与爱因斯坦-希尔伯特项耦合并应用于宇宙学时,除非它与物质的耦合比引力相互作用大得多,否则它在太阳系测试中被现象学上排除了。
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Scale invariance and dilaton mass
We consider a generic scale invariant scalar quantum field theory and its symmetry breakdown. Based on the dimension counting identity, we give a concise proof that dilaton is exactly massless at the classical level if scale invariance is broken spontaneously. On the other hand, on the basis of the generalized dimension counting identity, we prove that the dilaton becomes massive at the quantum level if scale invariance is explicitly broken by quantum anomaly. It is pointed out that a subtlety occurs when scale invariance is spontaneously broken through a scale invariant regularization method where the renormalization scale is replaced with the dilaton field. In this case, the dilaton remains massless even at the quantum level after spontaneous symmetry breakdown of scale symmetry, but when the massless dilaton couples non-minimally to the Einstein-Hilbert term and is applied for cosmology, it is phenomenologically ruled out by solar system tests unless its coupling to matters is much suppressed compared to the gravitational interaction.
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