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Autores principales: Garzón, Alexis, Fernández, Ricardo, Arévalo, Vicente A., Laroze, David, Pérez, Laura M., de Zayas, Benjamín, Rojas, Clara
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2504.16123
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author Garzón, Alexis
Fernández, Ricardo
Arévalo, Vicente A.
Laroze, David
Pérez, Laura M.
de Zayas, Benjamín
Rojas, Clara
author_facet Garzón, Alexis
Fernández, Ricardo
Arévalo, Vicente A.
Laroze, David
Pérez, Laura M.
de Zayas, Benjamín
Rojas, Clara
contents In this article, we solve the Duffin-Kemmer-Petiau (DKP) equation in the presence of the Woods-Saxon potential barrier and well for spin-one particles. We derive the scattering solution in terms of the Gaussian hypergeometric function ${}_2F_1(a, b; c; z)$, the regularized Gaussian hypergeometric function ${}_2\tilde{F}_1(a, b; c; z)$, and the Gamma function $Γ(x)$. Our analysis reveals the presence of transmission resonances. To observe these resonances, we calculate and plot the transmission $T$ and reflection $R$ coefficients for various parameters of the Woods-Saxon potential barrier. Our results are compared with those obtained for the square potential barrier and the cusp potential barrier, which represent limiting cases of the Woods-Saxon potential barrier. Furthermore, we investigate the bound state solutions, determining the critical turning point $V_{cr}$ to study particle-antiparticle creation and compute the norm $N$. Finally, we also compare our results with those obtained for the square potential well and the cusp potential well, confirming that pair creation occurs in both potential wells.
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publishDate 2025
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spellingShingle The DKP Equation in Presence of a Woods-Saxon Potential: Transmission Resonances and Bound States
Garzón, Alexis
Fernández, Ricardo
Arévalo, Vicente A.
Laroze, David
Pérez, Laura M.
de Zayas, Benjamín
Rojas, Clara
Quantum Physics
In this article, we solve the Duffin-Kemmer-Petiau (DKP) equation in the presence of the Woods-Saxon potential barrier and well for spin-one particles. We derive the scattering solution in terms of the Gaussian hypergeometric function ${}_2F_1(a, b; c; z)$, the regularized Gaussian hypergeometric function ${}_2\tilde{F}_1(a, b; c; z)$, and the Gamma function $Γ(x)$. Our analysis reveals the presence of transmission resonances. To observe these resonances, we calculate and plot the transmission $T$ and reflection $R$ coefficients for various parameters of the Woods-Saxon potential barrier. Our results are compared with those obtained for the square potential barrier and the cusp potential barrier, which represent limiting cases of the Woods-Saxon potential barrier. Furthermore, we investigate the bound state solutions, determining the critical turning point $V_{cr}$ to study particle-antiparticle creation and compute the norm $N$. Finally, we also compare our results with those obtained for the square potential well and the cusp potential well, confirming that pair creation occurs in both potential wells.
title The DKP Equation in Presence of a Woods-Saxon Potential: Transmission Resonances and Bound States
topic Quantum Physics
url https://arxiv.org/abs/2504.16123