Transit noise rises with smaller probe beam area and when Larmor frequency falls below the transit noise linewidth, limiting spin squeezing by 2.7 dB experimentally (theory predicts 3.0 dB) between 2 mm and 0.6 mm beams.
Generation of a squeezed state of an oscillator by stroboscopic back-action-evading measurement.Nat
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Transit Noise in Spin Squeezing Experiments with Coated Rubidium Vapor Cell
Transit noise rises with smaller probe beam area and when Larmor frequency falls below the transit noise linewidth, limiting spin squeezing by 2.7 dB experimentally (theory predicts 3.0 dB) between 2 mm and 0.6 mm beams.