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17 results on '"Mota, Herondy F. Santana"'

1. Vacuum energy density for interacting real and complex scalar fields in a Lorentz symmetry violation scenario

Author

Junior, A. J. D. Farias, Smirnov, A., Mota, Herondy F. Santana, and de Mello, E. R. Bezerra

Subjects
High Energy Physics - Theory
Abstract

In this paper the vacuum energy density and generation of topological mass are investigated for a system of a real and complex scalar fields interacting with each other. In addition to that, it is also included the quartic self-interaction for each one of the fields. The condition imposed on the real field is the periodic condition, while the complex field obey a quasi-periodic condition. The system is placed in a scenario where the CPT-even aether-type Lorentz symmetry violation takes place. We allow that the Lorentz violation affects the fields with different intensities. The vacuum energy density, its loop correction, and the topological mass are evaluated analytically. It is also discussed the possibility of different vacuum states and their corresponding stability requirements, which depends on the conditions imposed on the fields, the interaction coupling constants and also the Lorentz violation parameters. The formalism used here to perform this investigation is the effective potential one, which is written as a loop expansion via path integral in quantum field theory., Comment: 18 pages, 6 figures, version accepted for publication in IJMPD. arXiv admin note: text overlap with arXiv:2302.14540

Published
2024

2. Casimir effect, loop corrections and topological mass generation for interacting real and complex scalar fields in Minkowski spacetime with different conditions

Author

Junior, A. J. D. Farias and Mota, Herondy F. Santana

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

In this paper the Casimir energy density, loop corrections, and generation of topological mass are investigated for a system consisting of two interacting real and complex scalar fields. The interaction considered is the quartic interaction in the form of a product of the modulus square of the complex field and the square of the real field. In addition, it is also considered the self-interaction associated with each field. In this theory, the scalar field is constrained to always obey periodic condition while the complex field obeys in one case a quasiperiodic condition and in other case mixed boundary conditions. The Casimir energy density, loop corrections, and topological mass are evaluated analytically for the massive and massless scalar fields considered. An analysis of possible different stable vacuum states and the corresponding stability condition is also provided. In order to better understand our investigation, some graphs are also presented. The formalism we use here to perform such investigation is the effective potential, which is written as loop expansions via path integral in quantum field theory., Comment: 23 pages, 9 figures, accepted for publication in Physical Review D

Published
2023
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3. Quantum Brownian motion induced by an inhomogeneous tridimensional space and a $S^1\times R^3$ topological space-time

Author

Ferreira, Éwerton J. B., Guedes, Eliza M. B., and Mota, Herondy F. Santana

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

In this paper we investigate the Quantum Brownian motion of a point particle induced by quantum vacuum fluctuations of a massless scalar field in (3 + 1)-dimensional Minkowski spacetime with distinct conditions (Dirichlet, Neumann, mixed and quasiperiodic). The modes of the field are confined and compactified to a finite length region, which consequently provides a natural measure scale for the system. Useful expressions for the Wightman function have been obtained, which allow us to calculate analytical expressions for the velocity dispersion in all condition cases considered. We also obtain expressions for the velocity dispersion in the short and late time regimes. Finally, we exhibit some graphs in order to show the behavior of the velocity dispersions, discussing important divergencies that are present in our results., Comment: 32 pages, 9 figures, version accepted for publication in JHEP

Published
2023
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4. Loop correction to the scalar Casimir energy density and generation of topological mass due to a helix boundary condition in a scenario with Lorentz violation

Author

Junior, A. J. D. Farias and Mota, Herondy F. Santana

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

In this paper the effective potential approach in quantum field theory is used in order to investigate self-interaction loop correction to the Casimir energy density and generation of topological mass for both massless and massive real scalar fields. It is assumed that the scalar field obeys a helix boundary condition. In addition, it is also considered a CPT-even aether-type violation of the Lorentz symmetry. In the absence of the Lorentz violation we obtain analytical expressions for the loop correction to the Casimir energy density and to the mass of the scalar field. The same expressions are also obtained assuming the Lorentz violation in each of the spacetime directions. We also show some graphs that exhibit how the loop correction and the Lorentz violation affect the the Casimir energy density and the mass of the scalar field., Comment: 20 pages, 7 figures, published in IJMPD

Published
2022
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5. Thermal Casimir effect in a classical liquid in a quasi-periodically identified conical spacetime

Author

de Farias, K. E. L., Mohammadi, Azadeh, and Mota, Herondy F. Santana

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

In this paper, we study the finite-temperature quantum fluctuation of a classical liquid induced by the topology of an effective conical spacetime, as well as by a quasi-periodic boundary condition. The conical spacetime could be either a disclination or a cosmic string. In this context, we consider a phonon field representing quantum excitations of the liquid density, which obeys an effective Klein- Gordon equation with the sound velocity replaced by the light velocity. We obtain closed analytic expressions for the thermal Hadamard function, and consequently, the renormalized mean square density fluctuation of the liquid along with thermodynamics quantities such as internal energy, free energy, total energy, and entropy densities. We also discuss the limiting cases, including low and high-temperature regimes, and the situations in which there are only either the conical spacetime or quasi-periodicity., Comment: 14 pages, 4 figures

Published
2022

6. Boundary effects on classical liquid density fluctuations

Author

de Farias, K. E. L., Mohammadi, Azadeh, and Mota, Herondy F. Santana

Subjects
High Energy Physics - Theory, General Relativity and Quantum Cosmology
Abstract

In this paper, we study quantum vacuum fluctuation effects on the mass density of a classical liquid arising from the conical topology of an effective idealized cosmic string spacetime, as well as from the mixed, Dirichlet, and Neumann boundary conditions in Minkowski spacetime. In this context, we consider a phonon field representing quantum excitations of the liquid density, which obeys an effective Klein-Gordon equation with the sound velocity replaced by the light velocity. In the idealized cosmic string spacetime, the phonon field is subject to a quasi-periodic condition. Moreover, in Minkowski spacetime, the Dirichlet and Neumann boundary conditions are applied on one and also two parallel planes. We, thus, in each case, obtain closed analytic expressions for the two-point function and the renormalized mean-squared density fluctuation of the liquid. We point out specific characteristics of the latter by plotting their graphs., Comment: 12 pages, 3 figures

Published
2021
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7. Ground state energy and topological mass in spacetimes with nontrivial topology

Author

Porfírio, Paulo J., Mota, Herondy F. Santana, and Garcia, Gabriel Queiroz

Subjects
High Energy Physics - Theory
Abstract

In the present paper, we investigate the ground state energy of a massless scalar field and generation of topological mass by considering a quasi-periodically identified Minkowski spacetime and the `half-Einstein Universe', that is, an Einstein Universe where the massless scalar field propagates under Dirichlet boundary condition. The analysis is performed considering one and two-loop corrections to the effective potential in both cases. Our results are compared with previous results found in literature., Comment: 17 pages, 2 figures

Published
2019
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8. Induced Brownian motion by the Friedmann-Robertson-Walker spacetime in the presence of a cosmic string

Author

Mota, Herondy F. Santana and de Mello, Eugênio R. Bezerra

Subjects
High Energy Physics - Theory
Abstract

In this paper we investigate the quantum Brownian motion of a massive scalar point particle induced by the FRW spacetime in the presence of a linear topological defect named cosmic string. In addition, we also consider a flat boundary orthogonal to the defect to analyse its effect on the particle's motion. For both cases we found exact expressions for the renormalized mean square deviation of the particle velocity, the quantity that measures the induced Brownian motion, and obtain asymptotic expressions when the point particle is near and far away from the cosmic string and the boundary. Furthermore, in both cases, there appears divergencies in the mean square deviation of the particle velocity coming from a time interval that correspond to a round trip of the massive point particle between its position and the cosmic string/flat boundary. The number of divergencies depends upon the radial position of the particle and the parameter associated with the cosmic string in the case without boundary, and upon this parameter and the radial and $z$ positions of the particle in the case with boundary., Comment: 24 pages, 2 figures

Published
2019

12. Quantum Brownian motion induced by an inhomogeneous tridimensional space and a S1× R3 topological space-time.

Author

Ferreira, Éwerton J. B., Guedes, Eliza M. B., and Mota, Herondy F. Santana

Abstract

In this paper we investigate the Quantum Brownian motion of a point particle induced by quantum vacuum fluctuations of a massless scalar field in (3 + 1)-dimensional Minkowski spacetime with distinct conditions (Dirichlet, Neumann, mixed and quasiperiodic). The modes of the field are confined and compactified to a finite length region, which consequently provides a natural measure scale for the system. Useful expressions for the Wightman function have been obtained, which allow us to calculate analytical expressions for the velocity dispersion in all condition cases considered. We also obtain expressions for the velocity dispersion in the short and late time regimes. Finally, we exhibit some graphs in order to show the behavior of the velocity dispersions, discussing important divergencies that are present in our results. [ABSTRACT FROM AUTHOR]

Published
2023
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