Linewidth matching maximizes the robustness parameter χ for molecular strong coupling in microsphere cavities.
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Reports experimental generation of remote Bell entanglement between two giant atoms with fidelity 0.89 using driven-dissipative stabilization and in-situ frequency tuning.
Experiments and numerical simulations optimize AuFON systems by identifying how nanostructure dimensions and incident light conditions affect plasmon resonance energies and light distribution to enhance optical signal amplification for molecular detection.
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Tailoring soft cavities for robust molecular strong coupling
Linewidth matching maximizes the robustness parameter χ for molecular strong coupling in microsphere cavities.
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Driven-dissipative entanglement of distant giant atoms
Reports experimental generation of remote Bell entanglement between two giant atoms with fidelity 0.89 using driven-dissipative stabilization and in-situ frequency tuning.
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Optimisation and Precision Tuning of Localised Surface Plasmon Resonance in AuFON Systems
Experiments and numerical simulations optimize AuFON systems by identifying how nanostructure dimensions and incident light conditions affect plasmon resonance energies and light distribution to enhance optical signal amplification for molecular detection.