E. R. F. Taillebois scite author profile

E. R. F. Taillebois

5Publications

40Citation Statements Received

118Citation Statements Given

How they've been cited

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171

117

Affiliations

Instituto Federal Goiano, Universidade Federal de Goiás

Publications

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Spin-reduced density matrices for relativistic particles

Taillebois

Avelar

2013

Phys. Rev. A

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We present a new interpretation for reduced density matrices of secondary variables in relativistic systems via an analysis of Wigner's method to construct the irreducible unitary representations of the Poincaré group. We argue that the usual partial trace method used to obtain spin reduced matrices is not fully rigorous, however, employing our interpretation, similar effective reduced density matrices can be constructed. In addition, we show that our proposal is more useful than the usual one since we are not restricted only to the reduced density matrices that could be obtained by the ordinary partial trace method.

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Relativistic spin operator must be intrinsic

Taillebois

Avelar

2021

Physics Letters A

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Optical simulation of the free Dirac equation

et al. 2019

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We present a classical optics simulation of the one-dimensional Dirac equation for a free particle. Positive and negative energy components are represented by orthogonal polarizations of a free propagating beam, while the spatial profile represents the spatial wave function of the particle. Using a completely tunable time parameter, we observed the oscillation of the average value of the Dirac position operator-known as Zitterbewegung (ZB). We are also able to measure the so called mean-position operator which is a single-particle observable and presents no oscillations. Our work opens the way for optical simulation of interesting phenomenon of relativistic systems, as well as condensed-matter physics, without any requirement for specially engineered medium.PACS numbers:

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Proper-time approach to localization

Taillebois

Avelar

2021

Phys. Rev. A

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On a proper-time approach to localization

Taillebois¹,

Avelar²

2020

Preprint

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The causality issues concerning Hegerfeldt's paradox and the localization of relativistic quantum systems are addressed through a proper-time formalism of single-particle operators. The proposed description does not depend on classical parameters connected to an external observer and results in a single-particle formalism in which localization is described by explicitly covariant four-vector operators associated with POVM measurements parametrized by the system's proper-time. As a consequence, it is shown that physically acceptable states are necessarily associated with the existence of a temporal uncertainty and their proper-time evolution is not subject to the causality violation predicted by Hegerfeldt.

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E. R. F. Taillebois

Spin-reduced density matrices for relativistic particles

Relativistic spin operator must be intrinsic

Optical simulation of the free Dirac equation

Proper-time approach to localization

On a proper-time approach to localization

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