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The relaxation time of OH bond for hydrogen impurity in LiNbO3

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  • Additional Information
    • Publication Date:
      2018
    • Collection:
      Condensed Matter
    • Abstract:
      The one dimensional model for the dynamic of hydrogen in lithium niobate is explained by adopting Morse potential. The diffused hydrogen substitutes Lithium and it makes bonding with one oxygen atom of a facet of oxygen-triangle. The bonds will be stretched to set up anharmonic vibration. The damped anharmonic oscillation is derived to explain the dynamics of hydrogen as an impurity. The thermal fluctuation is studied by Fokker Planck equation has an important role to determine the diffusion constant for substitutional hydrogen. The hydrogen diffusion constant and relaxation time are calculated to support the proposed theory and existing experimental results. The concentration of substitutional hydrogens is studied with the help of Boltzmann distribution.
      Comment: 8 Pages and 4 figures
    • Accession Number:
      edsarx.1810.01959