Litcius/Paper detail

Topologically Protected Quantum Coherence in a Superatom

Wei Nie, Zhihui Peng, Franco Nori, Yu-xi Liu

2020Physical Review Letters58 citationsDOIOpen Access PDF

Abstract

Exploring the properties and applications of topological quantum states is essential to better understand topological matter. Here, we theoretically study a quasi-one-dimensional topological atom array. In the low-energy regime, the atom array is equivalent to a topological superatom. Driving the superatom in a cavity, we study the interaction between light and topological quantum states. We find that the edge states exhibit topology-protected quantum coherence, which can be characterized from the photon transmission. This quantum coherence helps us to find a superradiance-subradiance transition, and we also study its finite-size scaling behavior. The superradiance-subradiance transition also exists in symmetry-breaking systems. More importantly, it is shown that the quantum coherence of the subradiant edge state is robust to random noises, allowing the superatom to work as a topologically protected quantum memory. We suggest a relevant experiment with three-dimensional circuit QED. Our study may have applications in quantum computation and quantum optics based on topological edge states.

Topics & Concepts

SuperatomPhysicsSuperradianceQuantumTopology (electrical circuits)Coherence (philosophical gambling strategy)Quantum mechanicsTopological degeneracyQuantum networkQuantum technologyQuantum computerPhotonTopological orderOpen quantum systemSymmetry protected topological orderElectronic structureLaserMathematicsCombinatoricsTopological Materials and PhenomenaCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systems