Zero Error Correctibility and Phase Retrievability for Twirling Channels
Abstract
A twirling channel is a quantum channel induced by a continuous unitary representation , where are inequivalent irreducible representations. Motivated by a recent work \cite{Twirling} on minimal mixed unitary rank of , we explore the connections of the independence number, zero error capacity, quantum codes, orthogonality index and phase retrievability of the quantum channel with the irreducible representation multiplicities , the irreducible representation dimensions . In particular we show that the independence number of is the sum of the multiplicities, the orthogonal index of is exactly the sum of those representation dimensions, and the zero-error capacity is equal to . We also present a lower bound for the phase retrievability in terms of the minimal length of phase retrievable frames for .
Cite
@article{arxiv.2311.16349,
title = {Zero Error Correctibility and Phase Retrievability for Twirling Channels},
author = {Kai Liu and Deguang Han},
journal= {arXiv preprint arXiv:2311.16349},
year = {2023}
}