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Article

Lorentz symmetry breaking as a quantum field theory regulator

Matt VisserSchool of Mathematics, Statistics, and Operations Research, Victoria University of Wellington, Wellington 6140, New Zealand
2009en
ABI

Abstract

Perturbative expansions of quantum field theories typically lead to ultraviolet (short-distance) divergences requiring regularization and renormalization. Many different regularization techniques have been developed over the years, but most regularizations require severe mutilation of the logical foundations of the theory. In contrast, breaking Lorentz invariance, while it is certainly a radical step, at least does not damage the logical foundations of the theory. I shall explore the features of a Lorentz symmetry breaking regulator in a simple polynomial scalar field theory and discuss its implications. In particular, I shall quantify just ``how much'' Lorentz symmetry breaking is required to fully regulate the quantum theory and render it finite. This scalar field theory provides a simple way of understanding many of the key features of Ho\ifmmode \check{r}\else \v{r}\fi{}ava's recent article [Phys. Rev. D 79, 084008 (2009)] on $3+1$ dimensional quantum gravity.

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Cited by 30 references