Litcius/Paper detail

Photonic metamaterial analogue of a continuous time crystal

Tongjun Liu, Jun‐Yu Ou, Kevin F. MacDonald, Nikolay I. Zheludev

2023Nature Physics89 citationsDOIOpen Access PDF

Abstract

Abstract Time crystals are an eagerly sought phase of matter with broken time-translation symmetry. Quantum time crystals with discretely broken time-translation symmetry have been demonstrated in trapped ions, atoms and spins whereas continuously broken time-translation symmetry has been observed in an atomic condensate inside an optical cavity. Here we report that a classical metamaterial nanostructure, a two-dimensional array of plasmonic metamolecules supported on flexible nanowires, can be driven to a state possessing all of the key features of a continuous time crystal: continuous coherent illumination by light resonant with the metamolecules’ plasmonic mode triggers a spontaneous phase transition to a superradiant-like state of transmissivity oscillations, resulting from many-body interactions among the metamolecules, characterized by long-range order in space and time. The phenomenon is of interest to the study of dynamic classical many-body states in the strongly correlated regime and applications in all-optical modulation, frequency conversion and timing.

Topics & Concepts

PhysicsTranslational symmetryMetamaterialPlasmonSpinsSymmetry (geometry)Photonic crystalQuantum opticsQuantumCondensed matter physicsPhase (matter)PhotonicsOpticsOptoelectronicsQuantum mechanicsMathematicsGeometryNeural Networks and Reservoir ComputingQuantum Information and CryptographyStrong Light-Matter Interactions