Non-symmetric bilayer atomic arrays suppress diffraction losses via destructive interference for higher quantum interface efficiencies and introduce a collective dark-state memory whose light coupling is tuned by interlayer spacing.
Many-body physics with individually controlled rydberg atoms.Na- ture Physics, 16(2):132–142
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UAQS turns fixed analog quantum simulators into programmable ones by engineering target many-body dynamics with optimized continuous control fields instead of discrete gates.
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Non-symmetric quantum interfaces with bilayer atomic arrays
Non-symmetric bilayer atomic arrays suppress diffraction losses via destructive interference for higher quantum interface efficiencies and introduce a collective dark-state memory whose light coupling is tuned by interlayer spacing.
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Universal Analog Quantum Simulation
UAQS turns fixed analog quantum simulators into programmable ones by engineering target many-body dynamics with optimized continuous control fields instead of discrete gates.