• Title of article

    Numerical simulation of tunneling effects in nanoscale semiconductor devices using quantum corrected drift-diffusion models Original Research Article

  • Author/Authors

    Giuseppe Cassano، نويسنده , , Carlo de Falco، نويسنده , , Claudio Giulianetti، نويسنده , , Riccardo Sacco، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2005
  • Pages
    16
  • From page
    2193
  • To page
    2208
  • Abstract
    In this article, we deal with the numerical approximation of a quantum drift-diffusion model capable of describing tunneling effects through the thin oxide barrier in nanoscale semiconductor devices. We propose a novel reformulation of the mathematical model that allows a natural generalization of the Gummel decoupled algorithm, widely adopted in the case of the drift-diffusion system. Then, we address the finite element discretization of the linearized problems obtained after decoupling, and we prove well-posedness and a discrete maximum principle for the solution of the continuity equations. Finally, we validate the physical accuracy and the numerical stability of the proposed algorithms on the simulation of a real-life nanoscale device.
  • Keywords
    Quantum drift-diffusion models , Finite element method , Nanoscale semiconductor devices , Tunneling , Functional iterations
  • Journal title
    Computer Methods in Applied Mechanics and Engineering
  • Serial Year
    2005
  • Journal title
    Computer Methods in Applied Mechanics and Engineering
  • Record number

    893493