Eigenfunctions, uncertainties and thermal properties of diatomic molecules under screened modified Kratzer potential

C. O. Edet; A. N. Ikot; U. S. Okorie; M. Ramantswana; G. J. Rampho; R. Horchani; H. Y. Abdullah; H. Y. Zahran; L. F. Obagboye; A. H. Abdel-Aty; S. Kaya

doi:10.1007/s12648-022-02292-5

Eigenfunctions, uncertainties and thermal properties of diatomic molecules under screened modified Kratzer potential

C. O. Edet, A. N. Ikot^*, U. S. Okorie, M. Ramantswana, G. J. Rampho, R. Horchani, H. Y. Abdullah, H. Y. Zahran, L. F. Obagboye, A. H. Abdel-Aty, S. Kaya

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

A new potential model is proposed in this paper. This new potential named the screened modified Kratzer potential is solved within the nonrelativistic regime using Nikiforov–Uvarov-Functional Analysis (NUFA) to obtain the energy spectrum and the corresponding eigenfunction. The numerical results for selected diatomic molecules using the obtained energy spectrum have been obtained, and this is in good agreement with what was obtained using other analytical methods. The vibrational partition function for CO, NO and N₂ diatomic molecules was evaluated via the Euler–Maclaurin approach and other thermal properties such as free energy, entropy, mean energy and specific heat capacity. The expectation values of r,r2,p→ and p→ ² is also evaluated numerically for different diatomic molecules using the normalized wave function for the two low lying states n=0,1 corresponding to the ground and first excited states. The numerical results for the selected diatomic molecules validates the Heisenberg uncertainty relation, ΔrΔp≥ħ2.

Original language	English
Pages (from-to)	3429-3448
Number of pages	20
Journal	Indian Journal of Physics
Volume	96
Issue number	12
DOIs	https://doi.org/10.1007/s12648-022-02292-5
Publication status	Published - Mar 6 2022
Externally published	Yes

Keywords

Creened modified kratzer potential
Expectation value
Heisenberg uncertainty principle
Modified kratzer potential
NUFA method

ASJC Scopus subject areas

General Physics and Astronomy

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10.1007/s12648-022-02292-5

Cite this

Edet, C. O., Ikot, A. N., Okorie, U. S., Ramantswana, M., Rampho, G. J., Horchani, R., Abdullah, H. Y., Zahran, H. Y., Obagboye, L. F., Abdel-Aty, A. H., & Kaya, S. (2022). Eigenfunctions, uncertainties and thermal properties of diatomic molecules under screened modified Kratzer potential. Indian Journal of Physics, 96(12), 3429-3448. https://doi.org/10.1007/s12648-022-02292-5

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abstract = "A new potential model is proposed in this paper. This new potential named the screened modified Kratzer potential is solved within the nonrelativistic regime using Nikiforov–Uvarov-Functional Analysis (NUFA) to obtain the energy spectrum and the corresponding eigenfunction. The numerical results for selected diatomic molecules using the obtained energy spectrum have been obtained, and this is in good agreement with what was obtained using other analytical methods. The vibrational partition function for CO, NO and N2 diatomic molecules was evaluated via the Euler–Maclaurin approach and other thermal properties such as free energy, entropy, mean energy and specific heat capacity. The expectation values of r,r2,p→ and p→ 2 is also evaluated numerically for different diatomic molecules using the normalized wave function for the two low lying states n=0,1 corresponding to the ground and first excited states. The numerical results for the selected diatomic molecules validates the Heisenberg uncertainty relation, ΔrΔp≥ħ2.",

keywords = "Creened modified kratzer potential, Expectation value, Heisenberg uncertainty principle, Modified kratzer potential, NUFA method",

author = "Edet, {C. O.} and Ikot, {A. N.} and Okorie, {U. S.} and M. Ramantswana and Rampho, {G. J.} and R. Horchani and Abdullah, {H. Y.} and Zahran, {H. Y.} and Obagboye, {L. F.} and Abdel-Aty, {A. H.} and S. Kaya",

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doi = "10.1007/s12648-022-02292-5",

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T1 - Eigenfunctions, uncertainties and thermal properties of diatomic molecules under screened modified Kratzer potential

AU - Edet, C. O.

AU - Ikot, A. N.

AU - Okorie, U. S.

AU - Ramantswana, M.

AU - Rampho, G. J.

AU - Horchani, R.

AU - Abdullah, H. Y.

AU - Zahran, H. Y.

AU - Obagboye, L. F.

AU - Abdel-Aty, A. H.

AU - Kaya, S.

PY - 2022/3/6

Y1 - 2022/3/6

N2 - A new potential model is proposed in this paper. This new potential named the screened modified Kratzer potential is solved within the nonrelativistic regime using Nikiforov–Uvarov-Functional Analysis (NUFA) to obtain the energy spectrum and the corresponding eigenfunction. The numerical results for selected diatomic molecules using the obtained energy spectrum have been obtained, and this is in good agreement with what was obtained using other analytical methods. The vibrational partition function for CO, NO and N2 diatomic molecules was evaluated via the Euler–Maclaurin approach and other thermal properties such as free energy, entropy, mean energy and specific heat capacity. The expectation values of r,r2,p→ and p→ 2 is also evaluated numerically for different diatomic molecules using the normalized wave function for the two low lying states n=0,1 corresponding to the ground and first excited states. The numerical results for the selected diatomic molecules validates the Heisenberg uncertainty relation, ΔrΔp≥ħ2.

AB - A new potential model is proposed in this paper. This new potential named the screened modified Kratzer potential is solved within the nonrelativistic regime using Nikiforov–Uvarov-Functional Analysis (NUFA) to obtain the energy spectrum and the corresponding eigenfunction. The numerical results for selected diatomic molecules using the obtained energy spectrum have been obtained, and this is in good agreement with what was obtained using other analytical methods. The vibrational partition function for CO, NO and N2 diatomic molecules was evaluated via the Euler–Maclaurin approach and other thermal properties such as free energy, entropy, mean energy and specific heat capacity. The expectation values of r,r2,p→ and p→ 2 is also evaluated numerically for different diatomic molecules using the normalized wave function for the two low lying states n=0,1 corresponding to the ground and first excited states. The numerical results for the selected diatomic molecules validates the Heisenberg uncertainty relation, ΔrΔp≥ħ2.

KW - Creened modified kratzer potential

KW - Expectation value

KW - Heisenberg uncertainty principle

KW - Modified kratzer potential

KW - NUFA method

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Eigenfunctions, uncertainties and thermal properties of diatomic molecules under screened modified Kratzer potential

Abstract

Keywords

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