A timed-Dicke state of emitters hybridizes with a delocalized surface-plasmon mode to form a directional plasmon-polariton that shows Rabi oscillations, normal-mode splitting, three distinct decay regimes via Lyapunov analysis, and anticrossing in the emission spectrum from quantum vacuum effects.
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Light-assisted redistribution via blue-detuned pumping during Raman sideband cooling achieves 70-80% single-atom occupancy in optical lattices while retaining over 50% of atoms involved in collisions.
Tuning a femtosecond laser across the two-photon ionization threshold controls the formation of dense Rydberg gas or ultracold plasma in a Rb BEC, with charge imbalance driving the decay as confirmed by electron measurements and simulations.
citing papers explorer
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Collective light-matter interaction in plasmonic waveguide quantum electrodynamics
A timed-Dicke state of emitters hybridizes with a delocalized surface-plasmon mode to form a directional plasmon-polariton that shows Rabi oscillations, normal-mode splitting, three distinct decay regimes via Lyapunov analysis, and anticrossing in the emission spectrum from quantum vacuum effects.
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Achieving High Filling of an Optical Lattice by Light-Assisted Redistribution of Atoms
Light-assisted redistribution via blue-detuned pumping during Raman sideband cooling achieves 70-80% single-atom occupancy in optical lattices while retaining over 50% of atoms involved in collisions.
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Ultrafast many-body dynamics of dense Rydberg gases and ultracold plasma
Tuning a femtosecond laser across the two-photon ionization threshold controls the formation of dense Rydberg gas or ultracold plasma in a Rb BEC, with charge imbalance driving the decay as confirmed by electron measurements and simulations.
- Microscopic Rydberg electron orbit manipulation with optical tweezers