Criticality-Enhanced Precision in Phase Thermometry

• URL: http://arxiv.org/abs/2311.14578v2
• Date: Fri, 1 Dec 2023 20:56:15 GMT
• Title: Criticality-Enhanced Precision in Phase Thermometry
• Authors: Mei Yu, H. Chau Nguyen, Stefan Nimmrichter
• Abstract summary: We study non-invasive quantum thermometry of a finite, two-dimensional Ising spin lattice based on measuring the non-Markovian dephasing dynamics of a spin probe coupled to the lattice. We demonstrate a strong critical enhancement of the achievable precision in terms of the quantum Fisher information.
• Score: 4.508246364123997
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Temperature estimation of interacting quantum many-body systems is both a challenging task and topic of interest in quantum metrology, given that critical behavior at phase transitions can boost the metrological sensitivity. Here we study non-invasive quantum thermometry of a finite, two-dimensional Ising spin lattice based on measuring the non-Markovian dephasing dynamics of a spin probe coupled to the lattice. We demonstrate a strong critical enhancement of the achievable precision in terms of the quantum Fisher information, which depends on the coupling range and the interrogation time. Our numerical simulations are compared to instructive analytic results for the critical scaling of the sensitivity in the Curie-Weiss model of a fully connected lattice and to the mean-field description in the thermodynamic limit, both of which fail to describe the critical spin fluctuations on the lattice the spin probe is sensitive to. Phase metrology could thus help to investigate the critical behaviour of finite many-body systems beyond the validity of mean-field models.

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