Crystal polaritons form via strong collective coupling of periodic emitter arrays to metasurface resonances, enabling orders-of-magnitude higher quantum light generation efficiency than conventional nonlinear metasurfaces.
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Phase differences between identical-frequency x-ray pumps increase nuclear excitations via cross-correlations in a driven cavity system and enable sub- to super-Poissonian statistics.
Derives a generalized Schawlow-Townes linewidth limit for feedback oscillators that can be saturated by bad-cavity devices or surpassed via quantum engineering such as atomic spin squeezing.
citing papers explorer
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Close encounters between periodic light and periodic arrays of quantum emitters
Crystal polaritons form via strong collective coupling of periodic emitter arrays to metasurface resonances, enabling orders-of-magnitude higher quantum light generation efficiency than conventional nonlinear metasurfaces.
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Phase-enhanced excitations in pumped collective nuclear systems
Phase differences between identical-frequency x-ray pumps increase nuclear excitations via cross-correlations in a driven cavity system and enable sub- to super-Poissonian statistics.
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A Generalized Schawlow-Townes Limit
Derives a generalized Schawlow-Townes linewidth limit for feedback oscillators that can be saturated by bad-cavity devices or surpassed via quantum engineering such as atomic spin squeezing.