Constraining Lorentz violations with gamma ray bursts

María Rodríguez Martínez; Tsvi Piran

doi:10.1088/1475-7516/2006/04/006

Constraining Lorentz violations with gamma ray bursts

María Rodríguez Martínez^*, Tsvi Piran

^*Corresponding author for this work

Racah Institute of Physics

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

Gamma ray bursts are excellent candidates for constraining physical models which break Lorentz symmetry. We consider deformed dispersion relations which break the boost invariance and lead to an energy-dependent speed of light. In these models, simultaneously emitted photons from cosmological sources reach Earth with a spectral time delay that depends on the symmetry breaking scale. We estimate the possible bounds which can be obtained by comparing the spectral time delays with the time resolution of available telescopes. We discuss the best strategy to reach the strongest bounds. We compute the probability of detecting bursts that improve the current bounds. The results are encouraging. Depending on the model, it is possible to build a detector that within several years will improve the present limits of 0.015 m _pl.

Original language	English
Article number	006
Journal	Journal of Cosmology and Astroparticle Physics
Issue number	4
DOIs	https://doi.org/10.1088/1475-7516/2006/04/006
State	Published - 1 Apr 2006

Keywords

Gamma ray burst experiments
Quantum gravity phenomenology

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10.1088/1475-7516/2006/04/006

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abstract = "Gamma ray bursts are excellent candidates for constraining physical models which break Lorentz symmetry. We consider deformed dispersion relations which break the boost invariance and lead to an energy-dependent speed of light. In these models, simultaneously emitted photons from cosmological sources reach Earth with a spectral time delay that depends on the symmetry breaking scale. We estimate the possible bounds which can be obtained by comparing the spectral time delays with the time resolution of available telescopes. We discuss the best strategy to reach the strongest bounds. We compute the probability of detecting bursts that improve the current bounds. The results are encouraging. Depending on the model, it is possible to build a detector that within several years will improve the present limits of 0.015 m pl.",

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AU - Piran, Tsvi

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N2 - Gamma ray bursts are excellent candidates for constraining physical models which break Lorentz symmetry. We consider deformed dispersion relations which break the boost invariance and lead to an energy-dependent speed of light. In these models, simultaneously emitted photons from cosmological sources reach Earth with a spectral time delay that depends on the symmetry breaking scale. We estimate the possible bounds which can be obtained by comparing the spectral time delays with the time resolution of available telescopes. We discuss the best strategy to reach the strongest bounds. We compute the probability of detecting bursts that improve the current bounds. The results are encouraging. Depending on the model, it is possible to build a detector that within several years will improve the present limits of 0.015 m pl.

AB - Gamma ray bursts are excellent candidates for constraining physical models which break Lorentz symmetry. We consider deformed dispersion relations which break the boost invariance and lead to an energy-dependent speed of light. In these models, simultaneously emitted photons from cosmological sources reach Earth with a spectral time delay that depends on the symmetry breaking scale. We estimate the possible bounds which can be obtained by comparing the spectral time delays with the time resolution of available telescopes. We discuss the best strategy to reach the strongest bounds. We compute the probability of detecting bursts that improve the current bounds. The results are encouraging. Depending on the model, it is possible to build a detector that within several years will improve the present limits of 0.015 m pl.

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KW - Quantum gravity phenomenology

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Constraining Lorentz violations with gamma ray bursts

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