Optimal quantum sensing of the nonlinear bosonic interactions using Fock states

• URL: http://arxiv.org/abs/2404.17914v1
• Date: Sat, 27 Apr 2024 13:53:11 GMT
• Title: Optimal quantum sensing of the nonlinear bosonic interactions using Fock states
• Authors: Payman Mahmoudi, Atirach Ritboon, Radim Filip,
• Abstract summary: processes with individual quanta beyond bilinear interactions are essential for quantum technology with bosonic systems. We derive non-trivial, but optimal strategies for sensing the basic and experimentally available trilinear interactions using non-trivial particle-like Fock states. It can reveal unexplored aspects of nonlinear dynamics relevant to using such nonlinear processes in bosonic experiments with trapped ions and superconducting circuits.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Nonlinear processes with individual quanta beyond bilinear interactions are essential for quantum technology with bosonic systems. Diverse coherent splitting and merging of quanta in them already manifest in the estimation of their nonlinear coupling from observed statistics. We derive non-trivial, but optimal strategies for sensing the basic and experimentally available trilinear interactions using non-classical particle-like Fock states as a probe and feasible measurement strategies. Remarkably, the optimal probing of nonlinear coupling reaches estimation errors scaled down with $N^{-1/3}$ for overall $N$ of quanta in specific but available high-quality Fock states in all interacting modes. It can reveal unexplored aspects of nonlinear dynamics relevant to using such nonlinear processes in bosonic experiments with trapped ions and superconducting circuits and opens further developments of quantum technology with them.

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