The effect of the self action potential energy of charge carrier located in isotropic layer on the energy gape in lead iodide layer

Authors

  • Mohammad Fahoud
  • Mohey-Aldin Nizam
  • Nidal Worideh

Abstract

 

In this work, the effect of electric permittivity and thin layer thickness on the energy gape has been studied in a system consisting of three thin layers by means of finding the self action potential of charge carrier located in the central layer of this system. Then, the self action potential energy has been found by solving Schrödinger equation at the extracted potential. This study shows that energy gape of PbI2 decreases with layer thickness while it increases/decreases according to comparison between dielectric permittivity values of central layer  and counterparts of two neighborhood layers on both sides, respectively.

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Published

2019-02-27

How to Cite

1.
Fahoud M, Nizam M-A, Worideh N. The effect of the self action potential energy of charge carrier located in isotropic layer on the energy gape in lead iodide layer. TUJ-BA [Internet]. 2019Feb.27 [cited 2024Nov.24];39(3). Available from: https://journal.tishreen.edu.sy/index.php/bassnc/article/view/3732