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Ultrasensitive Atomic Spin Measurements with a Nonlinear Interferometer
We study nonlinear interferometry applied to a measurement of atomic spin and
demonstrate a sensitivity that cannot be achieved by any linear-optical
measurement with the same experimental resources. We use
alignment-to-orientation conversion, a nonlinear-optical technique from optical
magnetometry, to perform a nondestructive measurement of the spin alignment of
a cold Rb atomic ensemble. We observe state-of-the-art spin sensitivity
in a single-pass measurement, in good agreement with covariance-matrix theory.
Taking the degree of measurement-induced spin squeezing as a figure of merit,
we find that the nonlinear technique's experimental performance surpasses the
theoretical performance of any linear-optical measurement on the same system,
including optimization of probe strength and tuning. The results confirm the
central prediction of nonlinear metrology, that superior scaling can lead to
superior absolute sensitivity.Comment: 5 figure
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