Error mitigation via error detection using Generalized Superfast Encodings
Abstract
We provide a new approach to error mitigation for quantum chemistry simulation that uses a Bravyi-Kitaev Superfast encoding to implement a quantum error detecting code within the fermionic encoding. Our construction has low-weight parity checks as well. We show that for the spinless Hubbard model with nearest-neighbor repulsion terms, one-qubit errors are detectable, and more complicated errors are detectable with high probability. While our error-detection requires additional quantum circuitry, we argue that there is a regime in which the beneficial effect of error-mitigation outweighs the deleterious effects of additional errors due to additional circuitry. We show that our scheme can be implemented under realistic qubit connectivity requirements.
Cite
@article{arxiv.2309.11673,
title = {Error mitigation via error detection using Generalized Superfast Encodings},
author = {Tobias Hagge and Nathan Wiebe},
journal= {arXiv preprint arXiv:2309.11673},
year = {2023}
}
Comments
26 pages, 24 figures