First-Principles Theory for Schottky Barrier Height

ORAL

Abstract

The physics of Schottky contact is very challenging and there are exist only simple empirical models for Schottky barrier. In current work we are developing the first-principles theory for the Schottky barrier height. Our method based on density functional theory and consists of calculation of evanescent states in the gap of the semiconductor based on complex band structure of the semiconductor surface, following by calculation of the induced charge in the bulk of semiconductor. Next we find iteratively an equilibrium between the induced charge and the electrostatic potential. The method is tested on the GaAs(111) – graphene system.

*US Department of Energy Basic Energy Sciences Energy Frontier Research Centers under Grant No. DE-SC0019330

Presenters

  • Dmitry Skachkov

    • University of Florida

Authors

  • Dmitry Skachkov

    • University of Florida

  • Xiaoguang Zhang

    • University of Florida
    • Department of Physics, University of Florida
    • Department of Physics, Center for Molecular Magnetic Quantum Materials and Quantum Theory Project, University of Florida
    • Physics, University of Florida

  • Hai-ping Cheng

    • University of Florida
    • Department of Physics and Quantum Theory Project, University of Florida