Abstract
Non-self-adjoint operators play an important role in the modeling of open quantum systems. We consider a one-dimensional Schrödinger-type operator of the form −(1/2)(d/dx)(1/m)(d/dx)+V−∑κjδ(⋅−xj), Im(κj)>0, with dissipative boundary conditions. An explicit description of the characteristic function, the minimal dilation and the generalized eigenfunctions of the dilation is given. The quantities of carrier and current densities are rigorously defined. Furthermore, we will show that the current is not constant and that the variation of the current depend essentially on the chosen density matrix and the imaginary parts of the delta potentials, i.e., Im(κj). This correspondence can be used to model a recombination-generation rate in the open quantum system.
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