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Paper detail

Fundamental limits in Bayesian thermometry and attainability via adaptive strategies

We investigate the limits of thermometry using quantum probes at thermal equilibrium within the Bayesian approach. We consider the possibility of engineering interactions between the probes in order to enhance their sensitivity, as well as feedback during the measurement process, i.e., adaptive protocols. On the one hand, we obtain an ultimate bound on thermometry precision in the Bayesian setting, valid for arbitrary interactions and measurement schemes, which lower bounds the error with a quadratic (Heisenberg-like) scaling with the number of probes. We develop a simple adaptive strategy that can saturate this limit. On the other hand, we derive a no-go theorem for non-adaptive protocols that does not allow for better than linear (shot-noise-like) scaling even if one has unlimited control over the probes, namely access to arbitrary many-body interactions.

preprint2022arXivOpen access
Mohammad MehboudiMathias R. JørgensenStella SeahJonatan B. BraskJan KołodyńskiMartí Perarnau-Llobet
cond-mat.stat-mechphysics.data-anquant-ph
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Mohammad MehboudiMathias R. JørgensenStella SeahJonatan B. BraskJan KołodyńskiMartí Perarnau-Llobet

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