Litcius/Paper detail

Parity‐time symmetry and coherent perfect absorption in a cooperative atom response

Kyle E. Ballantine, Janne Ruostekoski

2021Nanophotonics11 citationsDOIOpen Access PDF

Abstract

Abstract Parity‐Time () symmetry has become an important concept in the design of synthetic optical materials, with exotic functionalities such as unidirectional transport and nonreciprocal reflection. At exceptional points, this symmetry is spontaneously broken, and solutions transition from those with conserved intensity to exponential growth or decay. Here, we analyze a quantum‐photonic surface formed by a single layer of atoms in an array with light mediating strong cooperative many‐body interactions. We show how delocalized collective excitation eigenmodes can exhibit an effective symmetry and nonexponential decay. This effective symmetry is achieved in a passive system without gain by balancing the scattering of a bright mode with the loss from a subradiant dark mode. These modes coalesce at exceptional points, evidenced by the emergence of coherent perfect absorption where coherent incoming light is perfectly absorbed and scattered only incoherently. We also show how symmetry can be generated in total reflection and by balancing scattering and loss between different polarizations of collective modes.

Topics & Concepts

PhysicsParity (physics)Delocalized electronScatteringExcitationSymmetry (geometry)Atom (system on chip)Quantum mechanicsCondensed matter physicsAtomic physicsGeometryComputer scienceMathematicsEmbedded systemQuantum Mechanics and Non-Hermitian PhysicsNonlinear Photonic SystemsMechanical and Optical Resonators