Arbitrary l-solutions of the Schrödinger equation interacting with Hulthén – Hellmann potential model

William, E. S.; Inyang, E. P.; Thompson, E. A.

doi:10.31349/revmexfis.66.730

Cited by 50 publications

(30 citation statements)

References 44 publications

(63 reference statements)

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“…For example, the Cornell potential which is the combination of the Coulomb potential with linear terms is used in studying the mass spectra for coupled states and for the electromagnetic characteristics of meson [31]. For instance, William et al [32] obtained bound state solutions of the radial Schrödinger equation by the combination of Hulthén and Hellmann potential within the framework of Nikiforov-Uvarov method. Also, Edet et al [33] obtained an approximate solution of the SE for the modified Kratzer potential plus screened Coulomb potential model using the Nikiforov-Uvarov method.…”

Section: Introductionmentioning

confidence: 99%

“…In this present work, we aim to study the SE with the combination of Hulthén and Hellmann potential analytically by using the NU method and apply the results to calculate the mass spectra of heavy quarkonium particles such as bottomonium and charmonium, in which the quarks are considered as spinless particles for easiness, which have not been considered before using this potentials to the best of our knowledge. The adopted potential is of the form [32] V…”

Section: Introductionmentioning

confidence: 99%

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Approximate solutions of the Schrödinger equation with Hulthén-Hellmann Potentials for a Quarkonium system

2021

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Hulthén plus Hellmann potentials are adopted as the quark-antiquark interaction potential for studying the mass spectra of heavy mesons. We solved the radial Schrödinger equation analytically using the Nikiforov-Uvarov method. The energy eigenvalues and corresponding wave function in terms of Laguerre polynomials were obtained. The present results are applied for calculating the mass of heavy mesons such as charmonium and bottomonium. Four special cases were considered when some of the potential parameters were set to zero, resulting into Hellmann potential, Yukawa potential, Coulomb potential, and Hulthén potential, respectively. The present potential provides satisfying results in comparison with experimental data and the work of other researchers.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Approximate solutions of the Schrödinger equation with Hulthén-Hellmann Potentials for a Quarkonium system

2021

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“…To get the solution of (18), we need another change of variable with: To deal with the centrifugal barrier, we introduce the Greene-Aldrich approximation scheme [45]- [47] to analytically solve the equation. This approximation scheme is an excellent approximation to the centrifugal term, which is valid for By using (19), (20), and the change of variable in (19), the Schrodinger equation reads…”

Section: Nlj Ementioning

confidence: 99%

Analytical Investigation of the Single-Particle Energy Spectrum in Magic Nuclei of ⁵⁶Ni and ¹¹⁶Sn

et al. 2020

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The analytical solutions of the radial D-dimensional Schrödinger equation for the Yukawa potential plus spin-orbit and Coulomb interaction terms are presented within the framework of the Nikiforov-Uvarov method by using the Greene-Aldrich approximation scheme to the centrifugal barrier. The energy eigenvalues obtained are employed to calculate the single-energy spectrum of ⁵⁶Ni and ¹¹⁶Sn for distinct quantum states. We have also obtained corresponding normalized wave functions for the magic nuclei manifested in terms of Jacobi polynomials. However, the energy spectrum without Spin-orbit and Coulomb interaction terms precisely matches the quantum mechanical system of the Yukawa potential field at any arbitrary state.

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“…Also, Edet et al [34] obtained any-state solutions of the SE interacting with Hellmann-Kratzer potential model. William et al [35] obtained bound state solutions of the radial SE by the combination of Hulthén and Hellmann potential within the framework of Nikiforov-Uvarov (NU) method for any arbitrarystate, with the Greene-Aldrish approximation in the centrifugal term. Inyang et al [36] studied any-state solutions of the SE interacting with class of Yukawa-Eckart potentials within the framework of NU method.…”

Section: Introductionmentioning

confidence: 99%

Eigensolutions of the N-dimensional Schrödinger equation interacting with Varshni-Hulthén potential model

2021

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Analytical solutions of the N-dimensional Schrödinger equation for the newly proposed Varshni-Hulthén potential are obtained within the framework of Nikiforov-Uvarov method by using Greene-Aldrich approximation scheme to the centrifugal barrier. The numerical energy eigenvalues and the corresponding normalized eigenfunctions are obtained in terms of Jacobi polynomials. Special cases of the potential are equally studied and their numerical energy eigenvalues are in agreement with those obtained previously with other methods. However, the behavior of the energy for the ground state and several excited states is illustrated graphically.

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Arbitrary l-solutions of the Schrödinger equation interacting with Hulthén – Hellmann potential model

Cited by 50 publications

References 44 publications

Approximate solutions of the Schrödinger equation with Hulthén-Hellmann Potentials for a Quarkonium system

Approximate solutions of the Schrödinger equation with Hulthén-Hellmann Potentials for a Quarkonium system

Analytical Investigation of the Single-Particle Energy Spectrum in Magic Nuclei of ⁵⁶Ni and ¹¹⁶Sn

Eigensolutions of the N-dimensional Schrödinger equation interacting with Varshni-Hulthén potential model

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