Coherent Microwave Emission of Gain-Driven Polaritons
Bimu Yao, Y. S. Gui, Jinwei Rao, Yi‐Hui Zhang, Wei Lü, C.‐M. Hu
Abstract
By developing a gain-embedded cavity magnonics platform, we create a gain-driven polariton (GDP) that is activated by an amplified electromagnetic field. Distinct effects of gain-driven light-matter interaction, such as polariton auto-oscillations, polariton phase singularity, self-selection of a polariton bright mode, and gain-induced magnon-photon synchronization, are theoretically studied and experimentally manifested. Utilizing the gain-sustained photon coherence of the GDP, we demonstrate polariton-based coherent microwave amplification (∼40 dB) and achieve high-quality coherent microwave emission (Q>10^{9}).
Topics & Concepts
PolaritonPhysicsMicrowaveCoherence (philosophical gambling strategy)PhotonOpticsQuantum mechanicsStrong Light-Matter InteractionsMechanical and Optical ResonatorsThermal Radiation and Cooling Technologies