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Scaling laws for the sensitivity enhancement of non-Gaussian spin states

We identify the large-$N$ scaling of the metrological quantum gain offered by over-squeezed spin states that are accessible by one-axis-twisting, as a function of the preparation time. We further determine how the scaling is modified by relevant decoherence processes and predict a discontinuous change of the quantum gain at a critical preparation time that depends on the noise. Our analytical results provide recipes for optimal and feasible implementations of quantum enhancements with non-Gaussian spin states in existing experiments, well beyond the reach of spin squeezing.

preprint2022arXivOpen access
Y. BaamaraA. SinatraM. Gessner
quant-ph
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Open access3 authors1 topic
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Y. BaamaraA. SinatraM. Gessner

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