We study the one-loop renormalization and evolution of the couplings in scalar field theories of the Lifshitz type, i.e. with different scaling in space and time. These theories are unitary and renormalizable, thanks to higher spatial derivative terms that modify the particle propagator at high energies, but at the expense of explicitly breaking Lorentz symmetry. We study if and under what conditions the Lorentz symmetry can be considered as emergent at low energies by studying the RG evolution of the "speed of light" coupling c(phi)(2) and, for more than one field, of delta c(2) equivalent to c(phi 1)(2) - c(phi 2)(2) in simple models. We find that in the UV both c(phi)(2) and delta c(2) generally flow logarithmically with the energy scale. A logarithmic running of c(2) persists also at low-energies, if delta c(2) not equal 0 in the UV. As a result, Lorentz symmetry is not recovered at low energies with the accuracy needed to withstand basic experimental constraints, unless all the Lorentz breaking terms, including delta c(2), are unnaturally fine-tuned to extremely small values in the UV. We expect that the considerations of this paper will apply to any generic theory of Lifshitz type, including a recently proposed quantum theory of gravity by Horava.

Renormalization group in Lifshitz-type theories / Iengo, Roberto; Russo, J; Serone, Marco. - In: JOURNAL OF HIGH ENERGY PHYSICS. - ISSN 1029-8479. - 2009:11(2009), pp. 1-24. [10.1088/1126-6708/2009/11/020]

Renormalization group in Lifshitz-type theories

Iengo, Roberto;Serone, Marco
2009-01-01

Abstract

We study the one-loop renormalization and evolution of the couplings in scalar field theories of the Lifshitz type, i.e. with different scaling in space and time. These theories are unitary and renormalizable, thanks to higher spatial derivative terms that modify the particle propagator at high energies, but at the expense of explicitly breaking Lorentz symmetry. We study if and under what conditions the Lorentz symmetry can be considered as emergent at low energies by studying the RG evolution of the "speed of light" coupling c(phi)(2) and, for more than one field, of delta c(2) equivalent to c(phi 1)(2) - c(phi 2)(2) in simple models. We find that in the UV both c(phi)(2) and delta c(2) generally flow logarithmically with the energy scale. A logarithmic running of c(2) persists also at low-energies, if delta c(2) not equal 0 in the UV. As a result, Lorentz symmetry is not recovered at low energies with the accuracy needed to withstand basic experimental constraints, unless all the Lorentz breaking terms, including delta c(2), are unnaturally fine-tuned to extremely small values in the UV. We expect that the considerations of this paper will apply to any generic theory of Lifshitz type, including a recently proposed quantum theory of gravity by Horava.
2009
2009
11
1
24
020
https://doi.org/10.1088/1126-6708/2009/11/020
Iengo, Roberto; Russo, J; Serone, Marco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11767/13324
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