WIAS Preprint No. 573, (2000)

Thermodynamic design of energy models of semiconductor devices



Authors

  • Albinus, Günter
  • Gajewski, Herbert
  • Hünlich, Rolf

2010 Mathematics Subject Classification

  • 82D37 35K55 47H05 47H50 80A20 80A30

Keywords

  • Energy model, semiconductor devices, carrier temperatures, convex thermodynamic potentials, systems of conservation laws, systems of nonlinear parabolic equations, Lyapunov functions, convex analysis, monotone operators

DOI

10.20347/WIAS.PREPRINT.573

Abstract

In this preprint a system of evolution equations for energy models of a semiconductor device is derived on an deductive way from a generally accepted expression for the free energy. Only first principles like the entropy maximum principle and the principle of partial local equilibrium are applied. Particular attention is paid to include the electrostatic potential self-consistently. Dynamically ionized trap levels and models with carrier temperatures are regarded. The system of evolution equations is compatible with the corresponding entropy balance equation that contains a positively definite entropy production rate.

Appeared in

  • Nonlinearity, 15 (2002) pp. 367--383.

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