Location qubits in a multi-quantum-dot system
Abstract
A physical platform for nodes of the envisioned quantum internet is long-sought. Here we propose such a platform, along with a conceptually simple and experimentally uncomplicated quantum information processing scheme, realized in a system of multiple crystal-phase quantum dots. We introduce novel location qubits, describe a method to construct a universal set of all-optical quantum gates, and simulate their performance in realistic structures, including decoherence sources. Our results show that location qubits can maintain coherence 5 orders of magnitude longer than single-qubit operation time, and single-qubit gate errors do not exceed 0.01%. Our scheme paves a clear way towards constructing multi-qubit solid-state quantum systems with a built-in photonic interface, such as a multi-qubit quantum register -- a key building block of the forthcoming quantum internet.
Cite
@article{arxiv.2107.05960,
title = {Location qubits in a multi-quantum-dot system},
author = {Dayang Li and Nika Akopian},
journal= {arXiv preprint arXiv:2107.05960},
year = {2021}
}
Comments
9+21 pages, 4+8 figures, 1 table