P. O. Okoi scite author profile

The bound state approximate solution of the Schrodinger equation is obtained for the q-deformed Hulthen plus generalized inverse quadratic Yukawa potential (HPGIQYP) in -dimensions using the Nikiforov-Uvarov (NU) method and the corresponding eigenfunctions are expressed in Jacobi polynomials. Seven special cases of the potential are discussed and the numerical energy eigenvalues are calculated for two values of the deformation parameter in different dimensions.

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Relativistic treatment of the Hellmann-generalized morse potential

Okoi

Edet

Magu

2019

Rev. Mex. Fís.

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We solve the relativistic equations(Klein-Gordon and Dirac equation) via the conventional Nikiforov-Uvarov method. In order to overcome the centrifugal barrier, we employed the wellknown Greene and Aldrich approximation scheme. The corresponding normalized eigenfunctions was also obtained in each case. It was shown that in the non-relativistic limits, both energy equations obtained by solving Klein-Gordon and Dirac equations, and wavefunctions reduced to the non-relativisitc energy Equation. The bound state energy eigenvalues for N 2 , CO, NO, CH and HCl diatomic molecules were computed for various vibrational and rotational quantum numbers. It was found that our results agree with those in literature.

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Analytic solutions of the Schrödinger equation with non-central generalized inverse quadratic Yukawa potential

Edet

Okoi

Chima

2020

Rev. Bras. Ensino Fís.

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This study presents the solutions of Schrödinger equation for the Non-Central Generalized Inverse Quadratic Yukawa Potential within the framework of Nikiforov-Uvarov. The radial and angular part of the Schrödinger equation are obtained using the method of variable separation. More so, the bound states energy eigenvalues and corresponding eigenfunctions are obtained analytically. Numerical results were obtained for the Generalized Inverse Quadratic Yukawa Potential for comparison sake. It was found out that our results agree with existing literature.

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Bound state solutions of the generalized shifted Hulthén potential

et al. 2020

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In this study, we obtain an approximate solution of the Schrödinger equation in arbitrary dimensions for the generalized shifted Hulthén potential model within the framework of the Nikiforov-Uvarov method. The bound state energy eigenvalues were computed and the corresponding eigenfunction was also obtained. It is found that the numerical eigenvalues were in good agreement for all three approximations scheme used. Special cases were considered when the potential parameters were altered, resulting into Hulthén Potential and Woods-Saxon Potential respectively. Their energy eigenvalues expressions agreed with the already existing literatures. A straightforward extension to the s-wave case for Hulthén potential and Woods-Saxon Potential cases are also presented.

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Relativistic and nonrelativistic treatment of Hulthen–Kratzer potential model in D-dimensions

2019

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P. O. Okoi

Any l-State Solutions of the Schrodinger Equation for q-Deformed Hulthen Plus Generalized Inverse Quadratic Yukawa Potential in Arbitrary Dimensions

Relativistic treatment of the Hellmann-generalized morse potential

Analytic solutions of the Schrödinger equation with non-central generalized inverse quadratic Yukawa potential

Bound state solutions of the generalized shifted Hulthén potential

Relativistic and nonrelativistic treatment of Hulthen–Kratzer potential model in D-dimensions

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