Tradeoff relations for simultaneous measurement of multiple incompatible observables and multi-parameter quantum estimation

• URL: http://arxiv.org/abs/2310.11925v1
• Date: Wed, 18 Oct 2023 12:41:35 GMT
• Title: Tradeoff relations for simultaneous measurement of multiple incompatible observables and multi-parameter quantum estimation
• Authors: Hongzhen Chen and Haidong Yuan
• Abstract summary: How well can multiple noncommutative observables be implemented by a single measurement? This is a fundamental problem in quantum mechanics and determines the optimal performances of many tasks in quantum information science. We provide an approach to study the approximation of an arbitrary finite number of observables with a single measurement.
• Score: 1.3416250383686867
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: How well can multiple noncommutative observables be implemented by a single measurement? This is a fundamental problem in quantum mechanics and determines the optimal performances of many tasks in quantum information science. While existing studies have been mostly focusing on the approximation of two observables with a single measurement, in practice multiple observables are often encountered, for which the errors of the approximations are little understood. Here we provide an approach to study the approximation of an arbitrary finite number of observables with a single measurement. With this approach, we obtain analytical bounds on the errors of the approximations for an arbitrary number of observables, which significantly improves our understanding of a fundamental problem. We also provide a tighter bound in terms of the semi-definite programming, which, in the case of two observables, can lead to an analytical bound that is tighter than existing bounds. We then demonstrate the power of the approach by quantifying the tradeoff of the precisions for the estimation of multiple parameters in quantum metrology, which is of both fundamental and practical interest.

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