Litcius/Paper detail

Topology detection in cavity QED

Beatriz Pérez-González, Álvaro Gómez-León, Gloria Platero

2022Physical Chemistry Chemical Physics20 citationsDOIOpen Access PDF

Abstract

We explore the physics of topological lattice models immersed in c-QED architectures for arbitrary coupling strength with the photon field. We propose the use of the cavity transmission as a topological marker and study its behaviour. For this, we develop an approach combining the input-output formalism with a Mean-Field plus fluctuations description of the setup. We illustrate our results with the specific case of a fermionic Su-Schrieffer-Heeger (SSH) chain coupled to a single-mode cavity. Our findings confirm that the cavity can indeed act as a quantum sensor for topological phases, where the initial state preparation plays a crucial role. Additionally, we discuss the persistence of topological features when the coupling strength increases, in terms of an effective Hamiltonian, and calculate the entanglement entropy. Our approach can be applied to other fermionic systems, opening a route to the characterization of their topological properties in terms of experimental observables.

Topics & Concepts

PhysicsTopology (electrical circuits)Coupling strengthQuantum entanglementObservableHamiltonian (control theory)PhotonLattice (music)Quantum mechanicsQuantumTheoretical physicsStatistical physicsMathematicsCondensed matter physicsCombinatoricsMathematical optimizationAcousticsQuantum Information and CryptographyTopological Materials and PhenomenaQuantum and electron transport phenomena
Topology detection in cavity QED | Litcius