Small correlation is sufficient for optimal noisy quantum metrology

TitleSmall correlation is sufficient for optimal noisy quantum metrology
Publication TypeJournal Article
Year of Publication2024
AuthorsYin, C, Albert, VV, Zhou, S
Date Published7/31/2024
Abstract

We propose a class of metrological resource states whose quantum Fisher information scales optimally in both system size and noise rate. In these states, qubits are partitioned into sensing groups with relatively large correlations within a group but small correlations between groups. The states are obtainable from local Hamiltonian evolution, and we design a metrologically optimal and efficient measurement protocol utilizing time-reversed dynamics and single-qubit local measurements. Using quantum domino dynamics, we also present a protocol free of the time-reversal step that has an estimation error roughly twice the best possible value.

URLhttps://arxiv.org/abs/2408.00079