English

Quantum metrology using time-frequency as quantum continuous variables: Resources, sub shot-noise precision and phase space representation

Quantum Physics 2024-12-09 v5

Abstract

We study the role of the electromagnetic field's frequency in time precision measurements using single photons as a paradigmatic system. For such, we independently identify the contributions of intensity and spectral resources and show that both can play a role on the scaling of the precision of parameter estimation with the number of probes. We show in particular that it is possible to observe a quadratic scaling using quantum mode correlations only and explicit the mathematical expression of states saturating the Heisenberg limit. We also provide a geometrical and phase space interpretation of our results, and observe a curious quantum-to-classical-like transition on scaling by modifying the spectral variance of states. Our results connect discrete and continuous aspects of single photons and quantum optics by considering from a quantum mechanical perspective the role of frequency.

Keywords

Cite

@article{arxiv.2210.05511,
  title  = {Quantum metrology using time-frequency as quantum continuous variables: Resources, sub shot-noise precision and phase space representation},
  author = {Eloi Descamps and Nicolas Fabre and Arne Keller and Perola Milman},
  journal= {arXiv preprint arXiv:2210.05511},
  year   = {2024}
}

Comments

15 pages, 3 figures

R2 v1 2026-06-28T03:15:24.274Z