G. Alencar scite author profile

We show that a direct connection can be drawn, based on fundamental quantum principles, between the Morse potential, extensively used as an empirical description for the atomic interaction in diatomic molecules, and the harmonic potential. This is conceptually achieved here through a non-additive translation operator, whose action leads to a perfect equivalence between the quantum harmonic oscillator in deformed space and the quantum Morse oscillator in regular space. In this way, our theoretical approach provides a distinctive first-principle rationale for anharmonicity, therefore revealing a possible quantum origin for several related properties as, for example, the dissociation energy of diatomic molecules and the deformation of cubic metals.

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Gauge field localization on the brane through geometrical coupling

Alencar

Landim

Tahim

et al. 2014

Physics Letters B

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Solutions to the problem of Elko spinor localization in brane models

et al. 2015

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In this paper we present two different solutions to the problem of zero mode localization of ELKO spinor. In a recent paper the present authors reopened this problem since the solution presented before did not satisfy the boundary condition at the origin. The first solution is given by the introduction of a mass term and by coupling the spinor with the brane through a delta function. The second solution is reached by a Yukawa geometrical coupling with the Ricci scalar. This two models changes consistently the the boundary condition at infinity and at the origin. For the case of Geometrical coupling we are able to show that the zero mode is localized for any smooth version of the RS model. *

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Null second order corrections to Casimir energy in weak gravitational field

Lima

Alencar

Muniz

et al. 2019

J. Cosmol. Astropart. Phys.

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The discussion of vacuum energy is currently a subject of great theoretical importance, specially concerning the cosmological constant problem in General Relativity. From Quantum Field Theory, it is stated that vacuum states subject to boundary conditions may generate tensions on these boundaries related to a measurable non-zero renormalized vacuum energy: the Casimir Effect. As such, investigating how these vacuum states and energy behave in curved backgrounds is just natural and might provide important results in the near future. In this paper we revisit a model of the Casimir Effect in weak gravitational field background, which has been proposed and further generalized in the literature. A trick originally used to simplify calculations is shown to lead to a wrong value for the energy shift, and by performing explicit mode expansion we arrive at an unexpected result: null gravitational correction even at order (M/R) 2 , in opposition to earlier results. 1

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Antisymmetric tensor fields in Randall–Sundrum thick branes

et al. 2010

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In this article we study the issue of localization of the three-form field in a Randall-Sundrum-like scenario. We simulate our membrane by kinks embedded in D=5, describing the usual case (not deformed) and new models coming from a specific deformation procedure. The gravitational background regarded includes the dilaton contribution. We show that we can only localize the zero-mode of this field for a specific range of the dilaton coupling, even in the deformed case.A study about resonances is presented. We use a numerical approach for calculations of the transmission coefficients associated to the quantum mechanical problem. This gives a clear description of the physics involved in the model. We find in this way that the appearance of resonances is strongly dependent on the coupling constant. We study the cases p = 1, 3 and 5 for α = −1.75 and α = −20. The first value of α give us one resonance peak for p = 1 and no resonances for p = 3, 5. The second value of α give us a very rich structure of resonances, with number deppending on the value of p.

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G. Alencar

Morse potential derived from first principles

Gauge field localization on the brane through geometrical coupling

Solutions to the problem of Elko spinor localization in brane models

Null second order corrections to Casimir energy in weak gravitational field

Antisymmetric tensor fields in Randall–Sundrum thick branes

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