Topological Thouless pumping in arrays of coupled spin chains

TL;DR

This paper proposes a novel method for topological pumping in complex arrays of coupled spin chains, enabling robust transport of quantum superpositions with potential quantum technology applications.

Contribution

It introduces a new topological pumping mechanism in spin chain arrays with complex geometries, extending previous models to more intricate quantum systems.

Findings

Topological protection enables transport against disorder.

Superpositions of spin excitations can be transported across the array.

The approach is feasible with current quantum simulation platforms.

Abstract

Thouless pumping is a mechanism to perform topologically protected transport of particles by adiabatically modulating the Hamiltonian. The transported current is a topological invariant that is intimately related to the integer quantum Hall effect. Most of the previous works focus on topological pumping in linear and square lattices. In this work, we theoretically propose a mechanism to perform topological pumping in arrays of spin chains with complex geometries. To achieve this, we consider an array where the spin chains are coupled through their edges, which allows to split the populations to generate superpositions of spin excitations in different spin chains. We show that due to the topological protection, the quantum superpositions can be transported through the array against the effect of disorder. This approach will open a new avenue to transport excitations and correlated states with potential applications in quantum technologies and information processing. Our ideas can be realized in state-of-the-art quantum simulators such as cold atoms and superconducting qubit arrays.