André H. Gomes scite author profile

The prospects are explored for testing Lorentz and CPT symmetry in the muon sector via the spectroscopy of muonium and various muonic atoms, and via measurements of the anomalous magnetic moments of the muon and antimuon. The effects of Lorentz-violating operators of both renormalizable and nonrenormalizable dimensions are included. We derive observable signals, extract first constraints from existing data on a variety of coefficients for Lorentz and CPT violation, and estimate sensitivities attainable in forthcoming experiments. The potential of Lorentz violation to resolve the proton radius puzzle and the muon anomaly discrepancy is discussed.

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Publisher’s Note: All orders renormalizability of a Lorentz-andCPT-violating quantum electrodynamics [Phys. Rev. D85, 065023 (2012)]

Cima¹,

Franco²,

Gomes³

et al. 2012

Phys. Rev. D

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Constraining GUP models using limits on SME coefficients

Gomes

2022

Class. Quantum Grav.

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Generalized uncertainty principles (GUP) and, independently, Lorentz symmetry violations are two common features in many candidate theories of quantum gravity. Despite that, the overlap between both has received limited attention so far. In this brief paper, we carry out further investigations on this topic. At the nonrelativistic level and in the realm of commutative spacetime coordinates, a large class of both isotropic and anisotropic GUP models is shown to produce signals experimentally indistinguishable from those predicted by the Standard Model Extension (SME), the common framework for studying Lorentz-violating phenomena beyond the Standard Model. This identification is used to constrain GUP models using current limits on SME coefficients. In particular, bounds on isotropic GUP models are improved by a factor of $10^{7}$ compared to current spectroscopic bounds and anisotropic models are constrained for the first time.

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Emission and absorption of photons and the black-body spectrum in Lorentz-odd electrodynamics

2009

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We study a number of issues related to the emission and absorption radiation by nonrelativistic electrons within the framework of a Lorentz-breaking electrodynamics in (3+1) dimensions. Our main results concern how Planck-like spectrum law is sensitive to terms that violate Lorentz symmetry. We have realized that Planck law acquires extra terms proportional to the violating parameters: for the CPT-odd model, the leading extra terms appear to be linear or quadratic in these violating parameters according to the background vector is parallel or perpendicular to the photon wave-vector. In the CPT-even case a linear 'correction' shows up. Among other possible ways to probe for these violations, by means of the present results, we may quote the direct observation of the extra contributions or an unbalancing in the mean occupation number of photon modes in a given thermal bath. *

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Testing CPT- and Lorentz-odd electrodynamics with waveguides

Gomes

Fonseca

Moura-Melo

et al. 2010

J. High Energ. Phys.

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We study CPT- and Lorentz-odd electrodynamics described by the Standard Model Extension. Its radiation is confined to the geometry of hollow conductor waveguide, open along $z$. In a special class of reference frames, with vanishing both 0-th and $z$ components of the background field, $(k_{\rm AF})^\mu$, we realize a number of {\em huge and macroscopically detectable} effects on the confined waves spectra, compared to standard results. Particularly, if $(k_{\rm AF})^\mu$ points along $x$ (or $y$) direction only transverse electric modes, with $E_z=0$, should be observed propagating throughout the guide, while all the transverse magnetic, $B_z=0$, are absent. Such a strong mode suppression makes waveguides quite suitable to probe these symmetry violations using a simple and easily reproducible apparatus.Comment: 11pages, double-spacing, tex forma

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André H. Gomes

Laboratory tests of Lorentz andCPTsymmetry with muons

Publisher’s Note: All orders renormalizability of a Lorentz-andCPT-violating quantum electrodynamics [Phys. Rev. D85, 065023 (2012)]

Constraining GUP models using limits on SME coefficients

Emission and absorption of photons and the black-body spectrum in Lorentz-odd electrodynamics

Testing CPT- and Lorentz-odd electrodynamics with waveguides

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