English

Dephasing superchannels

Quantum Physics 2021-12-14 v2

Abstract

We characterise a class of environmental noises that decrease coherent properties of quantum channels by introducing and analysing the properties of dephasing superchannels. These are defined as superchannels that affect only non-classical properties of a quantum channel E\mathcal{E}, i.e., they leave invariant the transition probabilities induced by E\mathcal{E} in the distinguished basis. We prove that such superchannels ΞC\Xi_C form a particular subclass of Schur-product supermaps that act on the Jamiolkowski state J(E)J(\mathcal{E}) of a channel E\mathcal{E} via a Schur product, J=JCJ'=J\circ C. We also find physical realizations of general ΞC\Xi_C through a pre- and post-processing employing dephasing channels with memory, and show that memory plays a non-trivial role for quantum systems of dimension d>2d>2. Moreover, we prove that coherence generating power of a general quantum channel is a monotone under dephasing superchannels. Finally, we analyse the effect dephasing noise can have on a quantum channel E\mathcal{E} by investigating the number of distinguishable channels that E\mathcal{E} can be mapped to by a family of dephasing superchannels. More precisely, we upper bound this number in terms of hypothesis testing channel divergence between E\mathcal{E} and its fully dephased version, and also relate it to the robustness of coherence of E\mathcal{E}.

Keywords

Cite

@article{arxiv.2107.06585,
  title  = {Dephasing superchannels},
  author = {Zbigniew Puchała and Kamil Korzekwa and Roberto Salazar and Paweł Horodecki and Karol Życzkowski},
  journal= {arXiv preprint arXiv:2107.06585},
  year   = {2021}
}

Comments

13 pages, 1 figure. Published version

R2 v1 2026-06-24T04:11:05.941Z