Eigen solution and thermodynamic properties of Manning Rosen plus exponential Yukawa potential

  • I.B. Okon
  • C.N. Isonguyo
  • C.A. Onate
  • A.D. Antia
  • K.R. Purohit
  • E.E. Ekott
  • K.E. Essien
  • E.S William
  • N.E. Asuquo


In this work, we obtained analytical bound state solution of the Schrödinger equation with Manning Rosen plus exponential Yukawa Potential using  parametric Nikiforov-Uvarov method (NU). We obtained the normalized wave function in terms of Jacobi polynomial. The energy eigen equation was  determined and presented in a compact form. The study also includes the computations of partition function and other thermodynamics properties such  as vibrational mean energy (𝜇), vibrational heat capacity (c), vibrational entropy (s) and vibrational free energy (F). Using a well design maple programme,  we obtained numerical bound state energies for different quantum states with various screening parameters: 𝛼 = 0.1, 0.2, 0.3, 0.4 and 0.5. The numerical  results showed that the bound state energies increase with an increase in quantum state while the thermodynamic plots were in excellent agreement to  work of existing literature.


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eISSN: 2141-3290