Related papers: Metrological power of incompatible measurements

Metrological power of incompatible measurements

URL: http://arxiv.org/abs/2311.11785v1
Date: Mon, 20 Nov 2023 14:10:41 GMT
Title: Metrological power of incompatible measurements
Authors: Jeongwoo Jae, Jiwon Lee, Kwang-Geol Lee, M. S. Kim, and Jinhyoung Lee
Abstract summary: We show that measurement incompatibility is a necessary resource to enhance the precision of quantum metrology. We propose a probabilistic method of operational quasiprobability (OQ) consisting of the measuring averages. We prove that Fisher information (FI), based on positive OQ, can be larger than the conventional quantum FI.
Score: 0.8488455943441637
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We show that measurement incompatibility is a necessary resource to enhance the precision of quantum metrology. To utilize incompatible measurements, we propose a probabilistic method of operational quasiprobability (OQ) consisting of the measuring averages. OQ becomes positive semidefinite for some quantum states. We prove that Fisher information (FI), based on positive OQ, can be larger than the conventional quantum FI. Applying the proof, we show that FI of OQ can be extremely larger than quantum FI, when estimating a parameter encoded onto a qubit state with two mutually unbiased measurements. By adopting maximum likelihood estimator and linear error propagation methods, we illustrate that they achieve the high precision that our model predicts. This approach is expected to be applicable to improve quantum sensors.

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