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Electron Elevator: Excitations across the Band Gap via a Dynamical Gap State

Abstract:

We use time-dependent density functional theory to study self-irradiated Si. We calculate the electronic stopping power of Si in Si by evaluating the energy transferred to the electrons per unit path length by an ion of kinetic energy from 1 eV to 100 keV moving through the host. Electronic stopping is found to be significant below the threshold velocity normally identified with transitions across the band gap. A structured crossover at low velocity exists in place of a hard threshold. An analysis of the time dependence of the transition rates using coupled linear rate equations enables one of the excitation mechanisms to be clearly identified: a defect state induced in the gap by the moving ion acts like an elevator and carries electrons across the band gap.

Año de publicación:

2016

Keywords:

    Fuente:

    scopusscopus

    Tipo de documento:

    Article

    Estado:

    Acceso abierto

    Áreas de conocimiento:

    • Ciencia de materiales
    • Semiconductor

    Áreas temáticas:

    • Electricidad y electrónica

    Contribuidores:

    Foulkes W.M.C.Foulkes W.M.C.
    Draeger E.W.Draeger E.W.
    Lim A.Lim A.
    Mason D.R.Mason D.R.
    Alfredo A. CorreaAlfredo A. Correa
    Horsfield A.P.Horsfield A.P.
    Schleife A.Schleife A.