English

Dephasing Noise Simulation for Coherence-Generating Devices

Quantum Physics 2024-03-29 v1

Abstract

Advancing quantum technologies necessitates an in-depth exploration of how operations generate quantum resources and respond to noise. Crucial are gates generating quantum coherence and the challenge of mitigating gate dephasing noise. Precisely, we study the dephasing noise that reduces the coherence-generating power of quantum gates, its simulation, and critical factors. Our primary contribution lies in a theorem characterizing the full set of dephasing noises in gates, adaptable to the simulation by any predefined operation set. In particular, we apply our result to quantify the memory adaptability required for a dephasing noise to arise. Furthermore, we analytically calculate the quantifier for gates acting on qubit systems, thereby fully characterizing this scenario. Next, we show how our results reveal the structure of non-trivial dephasing noise affecting qubit gates and apply them to experimental data, conclusively demonstrating the existence of a gate's dephasing noise, which is irreducible to dephasing of either input or output states. Finally, we show how our study contributes to addressing an open question in the resource theory of coherence generation.

Keywords

Cite

@article{arxiv.2403.19247,
  title  = {Dephasing Noise Simulation for Coherence-Generating Devices},
  author = {Roberto Salazar and Fereshte Shahbeigi},
  journal= {arXiv preprint arXiv:2403.19247},
  year   = {2024}
}

Comments

14 pages, Comments are welcome!

R2 v1 2026-06-28T15:36:48.575Z