We review the main theoretical motivations and observational constraints oil Planck scale-suppressed violations of Lorentz invariance. After introducing the problems related to the phenomenological study of quantum gravitational effects, we discuss the main theoretical frameworks within which possible departures from Lorentz invariance can be described. In particular, we focus on the framework of effective field theory, describing several possible ways of including Lorentz violation therein and discussing their theoretical viability. We review the main low-energy effects that are expected in this framework. We discuss the current observational constraints on such a framework, focusing on those achievable through high-energy. astrophysics observations. In this context, we present a summary of the most recent and strongest constraints on quantum electrodynamics with Lorentz-violating nonrenormalizable operators. Finally, we discuss the status of the field and its future perspectives.
Lorentz Violation: Motivation and new constraints / Liberati, S; Maccione, L. - In: ANNUAL REVIEW OF NUCLEAR AND PARTICLE SCIENCE. - ISSN 0163-8998. - 59:(2009), pp. 245-267. [10.1146/annurev.nucl.010909.083640]
Lorentz Violation: Motivation and new constraints
Liberati, S;
2009-01-01
Abstract
We review the main theoretical motivations and observational constraints oil Planck scale-suppressed violations of Lorentz invariance. After introducing the problems related to the phenomenological study of quantum gravitational effects, we discuss the main theoretical frameworks within which possible departures from Lorentz invariance can be described. In particular, we focus on the framework of effective field theory, describing several possible ways of including Lorentz violation therein and discussing their theoretical viability. We review the main low-energy effects that are expected in this framework. We discuss the current observational constraints on such a framework, focusing on those achievable through high-energy. astrophysics observations. In this context, we present a summary of the most recent and strongest constraints on quantum electrodynamics with Lorentz-violating nonrenormalizable operators. Finally, we discuss the status of the field and its future perspectives.| File | Dimensione | Formato | |
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