Reports experimental generation of remote Bell entanglement between two giant atoms with fidelity 0.89 using driven-dissipative stabilization and in-situ frequency tuning.
Fermi ,\ title title Quantum theory of radiation , \ 10.1103/RevModPhys.4.87 journal journal Reviews of Modern Physics \ volume 4 ,\ pages 87--132 ( year 1932 ) NoStop
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Derives exact expressions for vacuum electromagnetic field correlations between linearly and circularly moving points in frequency space, including self-correlations and finite-temperature effects, with small-parameter approximations.
Hydrogen atoms absorb gravitons at rates proportional to their number and graviton luminosity; the ratio of resulting photon luminosities can reveal graviton radiation due to helicity (1 vs 2).
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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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Vacuum electromagnetic field correlations between two moving points
Derives exact expressions for vacuum electromagnetic field correlations between linearly and circularly moving points in frequency space, including self-correlations and finite-temperature effects, with small-parameter approximations.