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Deterministic relation between thermal-phonon dressings and a non-Hermitian multi-Fano interferences router in ion-doped microcrystals

Huanrong Fan, Faizan Raza, Anas Mujahid, Peng Li, Yafen Wang, Haitian Tang, Muhammad Usman, Bo Li, Changbiao Li, Yanpeng Zhang

2023Chip27 citationsDOIOpen Access PDF

Abstract

We report the multi-Fano interference obtained through the simultaneous acquisition of bright and dark states in different phase transitions of Eu3+: BiPO4 (7:1, 6:1, 1:1, and 0.5:1) and Eu3+: NaYF4 (1:1/4) crystals. We employ multi-dressed spontaneous four-wave mixing and multi-dressed fluorescence (multi-order) to optimize the strong photon-phonon nested dressing effect resulting in more obvious multi-Fano interference. Firstly, the multi-Fano is produced through interference in continuous and multi-bound states. Secondly, five multi-Fano dips originate from nested five dressings (one photon and four phonons) under symmetrical splitting of 7F1 energy level. We depict that the pure H-phase (0.5:1) sample exhibits the strongest photon-phonon dressed effect (five Fano dips). Further, we investigate high-order non-Hermitian exceptional points in multi-Fano interference by adjusting the ratio of Rabi-frequency to de-phase rate through nested photon and phonon dressing. Our experimental results are validated by theoretical simulations, which may be applied to designing optoelectronic devices such as non-Hermitian multi-Fano interferences (multi-channel) router.

Topics & Concepts

Fano planePhononPhysicsInterference (communication)PhotonFano resonancePhase (matter)Condensed matter physicsQuantum mechanicsChannel (broadcasting)PlasmonTelecommunicationsMathematicsComputer scienceGeometryQuantum Mechanics and Non-Hermitian PhysicsAdvanced Fiber Laser TechnologiesPhotorefractive and Nonlinear Optics
Deterministic relation between thermal-phonon dressings and a non-Hermitian multi-Fano interferences router in ion-doped microcrystals | Litcius