Related papers: A non-degeneracy theorem for interacting electrons in one dimension

A non-degeneracy theorem for interacting electrons in one dimension

URL: http://arxiv.org/abs/2503.18440v1
Date: Mon, 24 Mar 2025 08:41:37 GMT
Title: A non-degeneracy theorem for interacting electrons in one dimension
Authors: Thiago Carvalho Corso,
Abstract summary: We consider Schr"odinger operators of the form $H_N(v,w) = -Delta + sum_ineq jN w(x_i,x_j) + sum_j=1N v(x_i)$ acting on $wedgeN mathrmL2, where the external and interaction potentials $v$ and $w$ belong to a large class of distributions.<n>We show that the ground-state of the system with Fermi statistics and local boundary conditions is non-degenerate
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-sa/4.0/
Abstract: In this paper, we show that the ground-state of many-body Schr\"odinger operators for electrons in one dimension is non-degenerate. More precisely, we consider Schr\"odinger operators of the form $H_N(v,w) = -\Delta + \sum_{i\neq j}^N w(x_i,x_j) + \sum_{j=1}^N v(x_i)$ acting on $\wedge^N \mathrm{L}^2([0,1])$, where the external and interaction potentials $v$ and $w$ belong to a large class of distributions. In this setting, we show that the ground-state of the system with Fermi statistics and local boundary conditions is non-degenerate and does not vanish on a set of positive measure. In the case of periodic and anti-periodic (or more general non-local) boundary conditions, we show that the same result holds whenever the number of particles is odd and even, respectively. This non-degeneracy result seems to be new even for regular potentials $v$ and $w$. As an immediate application of this result, we prove eigenvalue inequalities and the strong unique continuation property for eigenfunctions of the single-particle one-dimensional operators $h(v) = -\Delta +v$. In addition, we prove strict inequalities between the lowest eigenvalues of different self-adjoint realizations of $H_N(v,w)$.

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