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Thermometry in the quantum regime: Recent theoretical progress

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arxiv 1811.03988 v3 pith:TZEU5XMB submitted 2018-11-09 quant-ph cond-mat.stat-mechmath-phmath.MP

Thermometry in the quantum regime: Recent theoretical progress

classification quant-ph cond-mat.stat-mechmath-phmath.MP
keywords quantumthermometryexperimentalsystemstemperaturetheoreticaltheorydevelopments
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Controlling and measuring the temperature in different devices and platforms that operate in the quantum regime is, without any doubt, essential for any potential application. In this review, we report the most recent theoretical developments dealing with accurate estimation of very low temperatures in quantum systems. Together with the emerging experimental techniques and developments of measurement protocols, the theory of quantum thermometry will decisively impinge and shape the forthcoming quantum technologies. While current quantum thermometric methods differ greatly depending on the experimental platform, the achievable precision, and the temperature range of interest, the theory of quantum thermometry is built under a unifying framework at the crossroads of quantum metrology, open quantum systems, and quantum many-body physics. At a fundamental level, theoretical quantum thermometry is concerned with finding the ultimate bounds and scaling laws that limit the precision of temperature estimation for systems in and out-of-thermal equilibrium. At a more practical level, it provides tools to formulate precise, yet feasible, thermometric protocols for relevant experimental architectures. Last but not least, the theory of quantum thermometry examines genuine quantum features, like entanglement and coherence, for their exploitation in enhanced-resolution thermometry.

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