Prof. Moshe Goldstein - Entanglement and Conservation Laws in many Body Systems

Date: Monday, Julye 13 2020, at 14:00pm (Israel time)

 

 

Abstract

One cannot overestimate the importance of entanglement as a fundamental aspect of quantum mechanics. Recently it has also gained a central role in the study of many body systems in condensed matter and high energy physics. After reviewing this, I will pose the main question of our recent studies: How are symmetries, which give rise to conservation laws, manifested by entanglement measures? Similarly to the system Hamiltonian, a subsystem's reduced density matrix is composed of blocks characterized by symmetry quantum numbers, or charge sectors. I will present a geometric method for extracting the contribution of individual charge sectors to a subsystem’s entanglement measures (entropies and negativities) within the replica approach, via threading of appropriate conjugate Aharonov-Bohm fluxes through a multi-sheeted Riemann surface.

Specializing to the case of 1+1D conformal field theory, I will describe a general exact result for the entanglement characteristics, in the ground state as well as following a quench. I will apply it to a variety of systems, ranging from free and interacting fermions to spin and parafermion chains, and verify it numerically. For example, I will show that the total ground-state entanglement entropy, which scales as the logarithm of the subsystem size, is composed of square-root of log contributions of individual subsystem charge sectors for interacting fermion chains, or even subsystem-size-independent contributions when total spin conservation is also accounted for. I will also describe how measurements of the contributions to the entanglement or negativity from separate charge sectors can be performed with ultracold bosons or fermions and similar systems.

 

 

 

 

 

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