Holographic Software for Quantum Networks
Abstract
We introduce a pictorial approach to quantum information, called holographic software. Our software captures both algebraic and topological aspects of quantum networks. It yields a bi-directional dictionary to translate between a topological approach and an algebraic approach. Using our software, we give a topological simulation for quantum networks. The string Fourier transform (SFT) is our basic tool to transform product states into states with maximal entanglement entropy. We obtain a pictorial interpretation of Fourier transformation, of measurements, and of local transformations, including the -qudit Pauli matrices and their representation by Jordan-Wigner transformations. We use our software to discover interesting new protocols for multipartite communication. In summary, we build a bridge linking the theory of planar para algebras with quantum information.
Cite
@article{arxiv.1605.00127,
title = {Holographic Software for Quantum Networks},
author = {Arthur Jaffe and Zhengwei Liu and Alex Wozniakowski},
journal= {arXiv preprint arXiv:1605.00127},
year = {2018}
}
Comments
48 pages. Accepted for publication in SCIENCE CHINA Mathematics