Rydberg EIT spectroscopy with linearly polarized RF fields identifies two angular momentum ladder types with opposite central EIT peak behavior, challenging SI-traceable electrometer assumptions.
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3 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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2025 3verdicts
UNVERDICTED 3representative citing papers
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.
A tunable chain of Rydberg atoms in tweezers mediates both coherent and dissipative entanglement between two distant micro-electromechanical oscillators.
citing papers explorer
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EIT Spectroscopy of Rydberg Levels Dressed by Linearly Polarized RF fields: Complementary Angular Response for Two Types of Transition Ladders
Rydberg EIT spectroscopy with linearly polarized RF fields identifies two angular momentum ladder types with opposite central EIT peak behavior, challenging SI-traceable electrometer assumptions.
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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.
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Entanglement of mechanical oscillators mediated by a Rydberg tweezer chain
A tunable chain of Rydberg atoms in tweezers mediates both coherent and dissipative entanglement between two distant micro-electromechanical oscillators.