DERIVATION OF NEW QUANTUM HYDRODYNAMIC EQUATIONS USING ENTROPY MINIMIZATION

New quantum hydrodynamic equations are derived from a Wigner-Boltzmann model, using the quantum entropy minimization method recently developed by Degond and Ringhofer. The model consists of conservation equations for the carrier, momentum, and energy densities. The derivation is based on a careful expansion of the quantum Maxwellian in powers of the Planck constant. In difference to the standard quantum hydrodynamic equations derived by Gardner, the new model includes vorticity terms and a dispersive term for the velocity. Numerical current-voltage characteristics of a one-dimensional resonant tunneling diode for both the new quantum hydrodynamic equations and Gardnerâ\u80\u99s model are presented. The numerical results indicate that the dispersive velocity term regularizes the solution of the system