A. I. Komech, “On the Crystal Ground State in the Schrödinger–Poisson Model with Point Ions”, Mat. Zametki, 2016, Volume 99, Issue 6,Pages <nobr>886

This article is cited in 3 papers

Papers published in the English version of the journal

On the Crystal Ground State in the Schrödinger–Poisson Model with Point Ions

A. I. Komech^ab

^a Faculty of Mathematics, Vienna University, Vienna, Austria
^b Institute for Information Transmission Problems, Russian Academy of Sciences, Moscow, Russia

Abstract: A space-periodic ground state is shown to exist for lattices of point ions in $\mathbb{R}^3$ coupled to the Schrödinger and scalar fields. The coupling requires renormalization due to the singularity of the Coulomb self-action. The ground state is constructed by minimizing the renormalized energy per cell. This energy is bounded from below when the charge of each ion is positive. The elementary cell is necessarily neutral.

Keywords: crystal, lattice, ion, charge, wave function, potential, Schrödinger equation, Poisson equation, renormalized energy, elementary cell, energy per cell, Coulomb energy, minimization, neutrality condition, spectrum, embedding theorems, Fourier transform, infrared divergence, variation.

Received: 03.12.2015

Language: English