Multi-Octave Deep-Strong Light-Matter Coupling of Multiple Modes
2023 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)(2023)
摘要
Interaction of the vacuum field of an optical mode with an electronic two-level system can drive non-perturbative light-matter dynamics, resulting in an exotic quantum ground state containing a sizeable population of virtual excitations. In the deep-strong coupling (DSC) regime, where the Rabi frequency,
$\Omega_{\mathrm{R}}$
, exceeds the eigen-frequencies of the coupled systems, this extreme ground state can result in spectacular effects of cavity-QED, such as the expected release of the virtual photon ground state population as vacuum radiation by non-adiabatic modulation of the coupling mechanism [1], [2]. However, for resonant coupling of two single modes [3], the finite oscillator strength of resonant electronic excitation sets a natural limit to the achievable coupling strength, hindering further exploration of this exciting field.
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关键词
cavity-QED,coupled systems,coupling mechanism,coupling strength,deep-strong coupling regime,eigen-frequencies,electronic two-level system,exciting field,finite oscillator strength,multioctave deep-strong light-matter coupling,multiple modes,nonadiabatic modulation,nonperturbative light-matter dynamics,optical mode,quantum ground state,Rabi frequency,resonant coupling,resonant electronic excitation,single modes,sizeable population,vacuum field,vacuum radiation,virtual excitations,virtual photon ground state population
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