Toward Quantum CSS-T Codes from Sparse Matrices
Information Theory
2024-06-04 v1 math.IT
Abstract
CSS-T codes were recently introduced as quantum error-correcting codes that respect a transversal gate. A CSS-T code depends on a pair of binary linear codes and that satisfy certain conditions. We prove that and form a CSS-T pair if and only if , where the hull of a code is the intersection of the code with its dual. We show that if is a CSS-T pair, and the code is degenerated on , meaning that the -entry is zero for all the elements in , then the pair of punctured codes is also a CSS-T pair. Finally, we provide Magma code based on our results and quasi-cyclic codes as a step toward finding quantum LDPC or LDGM CSS-T codes computationally.
Cite
@article{arxiv.2406.00425,
title = {Toward Quantum CSS-T Codes from Sparse Matrices},
author = {Eduardo Camps-Moreno and Hiram H. López and Gretchen L. Matthews and Emily McMillon},
journal= {arXiv preprint arXiv:2406.00425},
year = {2024}
}