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Optomechanical Anti-Lasing with Infinite Group Delay at a Phase Singularity

Yulong Liu, Qichun Liu, Shuaipeng Wang, Zhen Chen, Mika A. Sillanpää, Tiefu Li

2021Physical Review Letters16 citationsDOIOpen Access PDF

Abstract

Singularities which symbolize abrupt changes and exhibit extraordinary behavior are of a broad interest. We experimentally study optomechanically induced singularities in a compound system consisting of a three-dimensional aluminum superconducting cavity and a metalized high-coherence silicon nitride membrane resonator. Mechanically induced coherent perfect absorption and anti-lasing occur simultaneously under a critical optomechanical coupling strength. Meanwhile, the phase around the cavity resonance undergoes an abrupt π-phase transition, which further flips the phase slope in the frequency dependence. The observed infinite discontinuity in the phase slope defines a singularity, at which the group velocity is dramatically changed. Around the singularity, an abrupt transition from an infinite group advance to delay is demonstrated by measuring a Gaussian-shaped waveform propagating. Our experiment may broaden the scope of realizing extremely long group delays by taking advantage of singularities.

Topics & Concepts

PhysicsGroup delay and phase delayGravitational singularitySingularityPhase (matter)Resonance (particle physics)Coupling (piping)Group velocityCondensed matter physicsWaveformGroup (periodic table)SuperconductivityResonatorRelative phaseDiscontinuity (linguistics)Phase transitionOptical cavitySiliconQuantum mechanicsClassification of discontinuitiesClassical mechanicsOpticsAbsorption (acoustics)Spectrum (functional analysis)Oscillation (cell signaling)Mechanical and Optical ResonatorsQuantum Mechanics and Non-Hermitian PhysicsForce Microscopy Techniques and Applications
Optomechanical Anti-Lasing with Infinite Group Delay at a Phase Singularity | Litcius