Distribution of the entanglement entropy in disordered one-dimensional fermions

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Abstract

The entanglement entropy is related to quantum phase transitions. It behaves differently when a quantum system is in a phase with a finite correlation length (such as an insulator phase), compared to a system in a critical phase in which the correlation length is infinite such as a metallic phase. The entanglement entropy of disordered systems does not depend only on the length of the relevant segment and the size of the system but also on the specific realization of disorder. Thus, the entanglement entropy of a disordered system exhibits mesoscopic fluctuations. Here we shall show numerical results that exhibit a crossover in the distribution of the entanglement entropy from a normal distribution at the weak localization regime to a log-normal distribution at the strong localization regime.

Original languageEnglish
Article number012020
JournalJournal of Physics: Conference Series
Volume376
Issue number1
DOIs
StatePublished - 2012
Event14th International Conference on Transport in Interacting Disordered Systems, TIDS-14 - Acre, Israel
Duration: 5 Sep 20118 Sep 2011

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