We present a study of the Wigner–Poisson problem in a bounded spatial domain with nonhomogeneous and time-dependent “inflow” boundary conditions. This system of nonlinearly coupled equations is a mathematical model for quantum transport of charges in a semiconductor with external contacts. We prove well-posedness of the linearized n-dimensional problem as well as existence and uniqueness of a global-in-time, regular solution of the one-dimensional nonlinear problem.
An analysis of the Wigner-Poisson problem with inflow boundary conditions / C. MANZINI; L. BARLETTI. - In: NONLINEAR ANALYSIS. - ISSN 0362-546X. - STAMPA. - 60(1):(2005), pp. 77-100. [10.1016/j.na.2004.08.022]
An analysis of the Wigner-Poisson problem with inflow boundary conditions
BARLETTI, LUIGI
2005
Abstract
We present a study of the Wigner–Poisson problem in a bounded spatial domain with nonhomogeneous and time-dependent “inflow” boundary conditions. This system of nonlinearly coupled equations is a mathematical model for quantum transport of charges in a semiconductor with external contacts. We prove well-posedness of the linearized n-dimensional problem as well as existence and uniqueness of a global-in-time, regular solution of the one-dimensional nonlinear problem.
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