BCS模型中的边界超导性

IF 1 3区数学 Q1 MATHEMATICS Journal of Spectral Theory Pub Date : 2022-01-20 DOI:10.4171/jst/439

C. Hainzl, B. Roos, R. Seiringer

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引用次数: 7

摘要

我们考虑线性BCS方程，在边界存在的情况下，确定BCS临界温度，其中Dirichlet边界条件被施加。在有点相互作用的一维情况下，我们证明了临界温度严格大于体值，至少在弱耦合情况下是如此。特别是，库珀对波函数在边界附近局部化，这种效应不能像金兹堡-朗道理论中经常施加的那样，用有效的诺伊曼边界条件来模拟。我们还表明，当耦合常数趋近于零或趋近于无穷大时，临界温度的相对位移消失。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Boundary superconductivity in the BCS Model

We consider the linear BCS equation, determining the BCS critical temperature, in the presence of a boundary, where Dirichlet boundary conditions are imposed. In the one-dimensional case with point interactions, we prove that the critical temperature is strictly larger than the bulk value, at least at weak coupling. In particular, the Cooper-pair wave function localizes near the boundary, an effect that cannot be modeled by effective Neumann boundary conditions on the order parameter as often imposed in Ginzburg-Landau theory. We also show that the relative shift in critical temperature vanishes if the coupling constant either goes to zero or to infinity.

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来源期刊

Journal of Spectral Theory MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

2.00

自引率

0.00%

发文量

期刊介绍： The Journal of Spectral Theory is devoted to the publication of research articles that focus on spectral theory and its many areas of application. Articles of all lengths including surveys of parts of the subject are very welcome. The following list includes several aspects of spectral theory and also fields which feature substantial applications of (or to) spectral theory. Schrödinger operators, scattering theory and resonances; eigenvalues: perturbation theory, asymptotics and inequalities; quantum graphs, graph Laplacians; pseudo-differential operators and semi-classical analysis; random matrix theory; the Anderson model and other random media; non-self-adjoint matrices and operators, including Toeplitz operators; spectral geometry, including manifolds and automorphic forms; linear and nonlinear differential operators, especially those arising in geometry and physics; orthogonal polynomials; inverse problems.