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Autori principali: Assimiou, Y. M., Daniel, S. T., Issoufou, G., Anselme, D. F., Avossevou, G. Y. H.
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.18637
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author Assimiou, Y. M.
Daniel, S. T.
Issoufou, G.
Anselme, D. F.
Avossevou, G. Y. H.
author_facet Assimiou, Y. M.
Daniel, S. T.
Issoufou, G.
Anselme, D. F.
Avossevou, G. Y. H.
contents In this paper, we present the solutions of the Schrödinger equation and the thermodynamic properties of generalized hyperbolic Hulthen and Woods-Saxon potential. The eigenvalues and eigenfunctions were found using the parametric Nikiforov-Uvarov method (PNUM). The clean energies of the molecules HCl, NiC, CO, I$_2$, H$_2$, LiH, CuLi and CrH are calculated for certain values of $n$ and $\ell$. They are positive and close to the energy of the ground state ($n= \ell= 0$) in the case of the atomic unit (whose energies become negative for $n=2$). The figures show that the proper energies decrease as $n$, $\ell$, $α$ increase, while they increase as $m$ increases, which confirms the results obtained in the literature. The obtained energy was used to calculate the partition function from which thermodynamic properties such as average energy, specific heat capacity, entropy and free energy are calculated. Numerical results are generated for this generalized hyperbolic Hulthen and Woods-Saxon potential. This study showed that the disorder decreases if the temperature decreases and this decrease is more rapid for HCl and H$_{2}$ molecules.
format Preprint
id arxiv_https___arxiv_org_abs_2412_18637
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Eigensolutions and thermodynamic properties of generalized hyperbolic Hulthen and Woods-Saxon potential
Assimiou, Y. M.
Daniel, S. T.
Issoufou, G.
Anselme, D. F.
Avossevou, G. Y. H.
Chemical Physics
In this paper, we present the solutions of the Schrödinger equation and the thermodynamic properties of generalized hyperbolic Hulthen and Woods-Saxon potential. The eigenvalues and eigenfunctions were found using the parametric Nikiforov-Uvarov method (PNUM). The clean energies of the molecules HCl, NiC, CO, I$_2$, H$_2$, LiH, CuLi and CrH are calculated for certain values of $n$ and $\ell$. They are positive and close to the energy of the ground state ($n= \ell= 0$) in the case of the atomic unit (whose energies become negative for $n=2$). The figures show that the proper energies decrease as $n$, $\ell$, $α$ increase, while they increase as $m$ increases, which confirms the results obtained in the literature. The obtained energy was used to calculate the partition function from which thermodynamic properties such as average energy, specific heat capacity, entropy and free energy are calculated. Numerical results are generated for this generalized hyperbolic Hulthen and Woods-Saxon potential. This study showed that the disorder decreases if the temperature decreases and this decrease is more rapid for HCl and H$_{2}$ molecules.
title Eigensolutions and thermodynamic properties of generalized hyperbolic Hulthen and Woods-Saxon potential
topic Chemical Physics
url https://arxiv.org/abs/2412.18637