The relative entropy of coherence quantifies performance in Bayesian metrology

• URL: http://arxiv.org/abs/2401.16020v2
• Date: Fri, 5 Jul 2024 02:40:20 GMT
• Title: The relative entropy of coherence quantifies performance in Bayesian metrology
• Authors: Ruvi Lecamwasam, Syed M Assad, Joseph J Hope, Ping Koy Lam, Jayne Thompson, Mile Gu,
• Abstract summary: We show how a coherence measure can be applied to an ensemble of states. We then prove that during parameter estimation, the ensemble relative entropy of coherence is equal to the difference between the information gained, and the optimal Holevo information.
• Score: 0.21111026813272177
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: The ability of quantum states to be in superposition is one of the key features that sets them apart from the classical world. This `coherence' is rigorously quantified by resource theories, which aim to understand how such properties may be exploited in quantum technologies. There has been much research on what the resource theory of coherence can reveal about quantum metrology, almost all of which has been from the viewpoint of Fisher information. We prove however that the relative entropy of coherence, and its recent generalisation to POVMs, naturally quantify the performance of Bayesian metrology. In particular, we show how a coherence measure can be applied to an ensemble of states. We then prove that during parameter estimation, the ensemble relative entropy of coherence is equal to the difference between the information gained, and the optimal Holevo information. We call this relation the CXI equality. The ensemble coherence lets us visualise how much information is locked away in superposition inaccessible with a given measurement scheme, and quantify the advantage that would be gained by using a joint measurement on multiple states. Our results hold regardless of how the parameter is encoded in the state, encompassing unitary, dissipative, and discrete settings. We consider both projective measurements, and general POVMs. This work suggests new directions for research in quantum resource theories, provides a novel operational interpretation for the relative entropy of coherence and its POVM generalisation, and introduces a new tool to study the role of quantum features in metrology.

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