Compiling single-qubit braiding gate for Fibonacci anyons topological quantum computation
Abstract
Topological quantum computation is an implementation of a quantum computer in a way that radically reduces decoherence. Topological qubits are encoded in the topological evolution of two-dimensional quasi-particles called anyons and universal set of quantum gates can be constructed by braiding these anyons yielding to a topologically protected circuit model. In the present study we remind the basics of this emerging quantum computation scheme and illustrate how a topological qubit built with three Fibonacci anyons might be adopted to achieve leakage free braiding gate by exchanging the anyons composing it. A single-qubit braiding gate that approximates the Hadamard quantum gate to a certain accuracy is numerically implemented using a brute force search method. The algorithms utilized for that purpose are explained and the numerical programs are publicly shared for reproduction and further use.
Cite
@article{arxiv.2008.03542,
title = {Compiling single-qubit braiding gate for Fibonacci anyons topological quantum computation},
author = {Mohamed Taha Rouabah},
journal= {arXiv preprint arXiv:2008.03542},
year = {2020}
}
Comments
Python programs on this link: https://github.com/Taha-Rouabah/Topological-Quantum-Computing