Absence of many-body localization in a continuum

TKM Institutsseminar

Speaker:

Dr. Markus Müller

Date:

08/12/2016 12:30

Where:

Raum 10.01, Geb. 30.23 (Physikhochhaus), Campus Süd

Affiliation:

Paul Scherrer Institute

Host:

PD Dr. Igor Gornyi

Abstract

We show that many-body localization, which exists in tight-binding models, is unstable in a
continuum [1]. Irrespective of the dimensionality of the system, many-body localization does not
survive the unbounded growth of the single-particle localization length with increasing energy that is
characteristic of the continuum limit. The system remains delocalized down to arbitrarily small
temperature T, although its dynamics slows down as T decreases. Remarkably, the conductivity vanishes with decreasing T faster than in the Arrhenius law. The system can be characterized by an effective T-dependent single-particle mobility edge which diverges in the limit of zero T. Delocalization is driven by interactions between hot electrons above the mobility edge and the "bath" of thermal electrons in the vicinity of the Fermi level.

[1] I.V. Gornyi, A.D. Mirlin, M. Müller, and D.G. Polyakov, arXiv:1611.05895