RO-VIBRATIONAL ENERGIES AND WAVE FUNCTIONS OF IMPROVED TIETZ POTENTIAL

Authors

  • J.U Ojar Department of Basic Science, Adamawa State College of Agriculture, P.M.B. 2088, Ganye, Adamawa State, Nigeria. Author
  • S.D. Najoji Department of Basic Sciences, School of General and Remedial Studies. The Federal Polytechnic, P.M.B. 1006, Damaturu, Yobe State, Nigeria. Author
  • E.S. Eyube Department of Physics, Faculty of Physical Sciences, Modibbo Adama University, P.M.B. 2076, Yola, Adamawa State, Nigeria Author

Keywords:

exact quantization rule, Schrödinger equation, Riccati equation, ro-vibrational energy, Improved Tietz potential

Abstract

We have employed the techniques of exact quantization rule to obtain closed form expression for the bound state ro-vibrational energy eigenvalues of the improved Tietz potential. By considering the Morse potential as a special case of the improved Tietz potential, we have deduced closed form expression for the ro-vibrational energy of Morse potential from the results of improved Tietz
potential. We have also solved the Riccati equation via ansatz solution and obtained closed form expressions for the unnormalized radial wave functions for the improved Tietz and Morse potentials. We have computed ro-vibrational energies for the improved Tietz and Morse potentials and obtained results for four diatomic molecules including HCl, LiH, H2 and CO, our computed results are in near perfect agreement with available data of the diatomic molecules in the literature. 

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References

E. E. Samson, Y. Dlama, Y. J. Benson, Measurement of Physical Observables of a Particle in a Morse Potential. Transactions of the Nigerian Association of Mathematical Physics 10, 51-60 (2019)

W. A. Yahya, K.J. Oyewumi, Thermodynamic Properties and Approximate Solutions of the ℓ-state Pöschl- Teller Potential. Journal of the Association of Arab Universities for Basic and Applied Sciences 21, 53-58 (2016). http://dx.doi.org/10.1016/j.jaubas.2015.04.001

S.A.S. Ahmed, L. Buragohain, Exactly Solved Potential Using Extended Transformation Method. Electronic Journal of Theoretical Physics 7, 145-154 (2010)

E.E. Samson, Y.Y. Jabil, W. Umar, Bound State Solutions of Non-Relativistic Schrödinger Equation with Hellmann Potential within the Frameworks of Generalized Pekeris Approximation of the Centrifugal Term Potential. Journal of the Nigerian Association of Mathematical Physics 52, 215-222 (2019)

T. Gin-Yih, W. Jyhpyng, A Universal Laplace-Transform Approach to Solving Schrodinger Equations for all Solvable Models. Eur. J. Phys. 35, 015006 (17pp) (2014). doi:10.1088/0143-0807/35/1/015006

L. Hitler, B.I. Ita, O.U. Akakuru, T.O. Magu, I. Joseph, P.A. Isa, Radial Solution of the s-wave Schrödinger Equation with Kratzer plus Modified Deng-Fan Potential Under the Framework of Nikiforov-Uvarov Method. International Journal of Applied Mathematics and Theoretical Physics 3, 97-100 (2017). doi:10.11648/j.ijamptp.20170304.14

A.K. Roy, Accurate Ro-vibrational Spectroscopy of Diatomic Molecules in a Morse Oscillator Potential. Results in Physics 3, 103-108 (2013). http://dx.doi.org/10.1016/j.rinp.2013.06.001

W. Lucha, F.F. Schöberl, Solving Schrödinger Equation for Bound States with Mathematica 3.0 International Journal of Modern Physics 10, 607-619 (1999). https://doi.org/10.1142/S0129183199000450

E.E. Samson, A. Sanda, Y.Y. Jabil, W. Umar,  - Wave Analytical Solutions of Schrödinger Equation with Tietz-Hua Potential. Journal of the Nigerian Association of Mathematical Physics 52, 223-230 (2019)

I. Nasser, M.S. Abdelmonem, A. Abdel-Hady, A., The Manning-Rosen Potential using J-matrix Approach. Molecular Physics 3, 1-8 (2013). http://dx.doi.org/10.1080/00268976.2012.698026

D. Secrest, K. Cashion, J.O. Hirschfelder, Power-Series Solutions for Energy Eigenvalues. The Journal of Chemical Physics 37, 830-835 (1962).

Ojar, Najoji and Eyube J. of NAMP U.S. Okorie, A.N. Ikot, E.O. Chukwuocha, G.J. Rampho. Thermodynamic Properties of Improved Deformed

Exponential-Type Potential for Some Diatomic Molecules. Results in Physics 17, 103978 (2020) http://doi.org/10.1016/j.rinp.2020.103078

H-M. Tang, G-C. Liang, L-H. Zhang, F. Zhao, F. C-S. Jia, C-S. Molecular Energies of the Improved Tietz Potential Energy. Can. J. Chem. 92, 201-205 (2014). dx.doi:.org./10.1139/cjc-2013-0466

M. Hamzavi, A.A. Rajabi, H. Hassanabadi, H. The Rotation-Vibration of Diatomic Molecules with the Tietz- Hua Rotating Oscillator and Approximation Scheme to the Centrifugal Term. Molecular Physics. 110, 389-393 (2014). http://dx.doi.org/10.1080/00268976.2011.648962

C.L. Pekeris. The Rotation-Vibration Coupling in Diatomic Molecules. Physical Review. 45, 98-103 (1934)

R.L. Greene, C. Aldrich. Variational wave Functions for a Screened Coulomb Potential. Physical Review A. 14, 2363-2366 (1976)

Z-Y. Chen, M. Li, C-S. Jia. Approximate Analytical Solutions of the Schrödinger Equation with the Manning- Rosen Potential Model. Modern Physics Letters A. 23, 1863-1874 (2009)

N. Rosen, P. M. Morse. On the Vibrations of Polyatomic Molecules. Physical Review 42, 210-217 (1932).

Z-Q. Ma, B-W. Xu. Quantum Correction in Exact Quantization Rules. International Journal of Modern Physics E. 14, 599-610 (2005). doi.org/10.1142/s0218301305003429

S-H., Dong, D. Morales, J. Garcia-Ravelo. Exact Quantization Rule and Its Applications to Physical Potentials. International Journal of Modern Physics E. 16, 189-198 (2007).

W-C. Qiang, Y. Gao, R-S. Zhou. Arbitrary ℓ-State Approximate Solutions of the Hulthén Potential through the Exact Quantization Rule. Cent. Eur. J. Phys. 6, 356-362 (2008). doi:10.2478/s11534-008-0041-1

S.M. Ikhdair, R. Sever. Exact Quantization Rule to the Kratzer-Type Potentials: An Application to Diatomic Molecules. Journal of Materials Chemistry 45, 1137 (2009). https://doi.org/10.1007/s10910-008-9438-8

F.A. Serrano, X-Y. Gu, S-H. Dong. Qiang-Dong Proper Quantization Rule and its Applications to Exactly Solvable Quantum Systems. Journal of Mathematical Physics 51, 082103 (2010)

X-Y. Gu, S-H. Dong. Energy Spectrum of the Manning-Rosen Potential Including Centrifugal Term Solved by Exact and Proper Quantization Rules. J. Math Chem. 49, 2053-2062 (2011). doi:10.1007/s10910-011-9877-5

B.J. Falaye, S.M. Ikhdair, M. Hamzavi. Shifted Tietz-Wei Oscillator for Simulating the Atomic Interaction in Diatomic Molecules. Journal of Theoretical and Applied Mathematics 9, 151-158 (2015)

A. Khodja, F. Benamira, L. Guechi, L. Path Integral Discussion of the Improved Tietz Potential. Journal of Mathematical Physics 59, 042108 (2018). https://doi.org/10.1063/1.5022285

NIST Computational Chemistry Comparison and Benchmark Database NIST Standard Reference Database Number 101 Release 20, August 2019.

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Published

2022-03-01

How to Cite

RO-VIBRATIONAL ENERGIES AND WAVE FUNCTIONS OF IMPROVED TIETZ POTENTIAL. (2022). The Journals of the Nigerian Association of Mathematical Physics, 63, 1-12. https://nampjournals.org.ng/index.php/home/article/view/107

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