English

Quantum metrology with full and fast quantum control

Quantum Physics 2017-09-07 v5

Abstract

We establish general limits on how precise a parameter, e.g. frequency or the strength of a magnetic field, can be estimated with the aid of full and fast quantum control. We consider uncorrelated noisy evolutions of N qubits and show that fast control allows to fully restore the Heisenberg scaling (~1/N^2) for all rank-one Pauli noise except dephasing. For all other types of noise the asymptotic quantum enhancement is unavoidably limited to a constant-factor improvement over the standard quantum limit (~1/N) even when allowing for the full power of fast control. The latter holds both in the single-shot and infinitely-many repetitions scenarios. However, even in this case allowing for fast quantum control helps to increase the improvement factor. Furthermore, for frequency estimation with finite resource we show how a parallel scheme utilizing any fixed number of entangled qubits but no fast quantum control can be outperformed by a simple, easily implementable, sequential scheme which only requires entanglement between one sensing and one auxiliary qubit.

Keywords

Cite

@article{arxiv.1603.08944,
  title  = {Quantum metrology with full and fast quantum control},
  author = {Pavel Sekatski and Michalis Skotiniotis and Janek Kołodyński and Wolfgang Dür},
  journal= {arXiv preprint arXiv:1603.08944},
  year   = {2017}
}

Comments

17 pages, 7 figures, 6 appendices

R2 v1 2026-06-22T13:20:55.861Z