Recursive Encoding and Decoding of Noiseless Subsystem and Decoherence Free Subspace
Abstract
When the environmental disturbace to a quantum system has a wavelength much larger than the system size, all qubits localized within a small area are under action of the same error operators. Noiseless subsystem and decoherence free subspace are known to correct such collective errors. We construct simple quantum circuits, which implement these collective error correction codes, for a small number of physical qubits. A single logical qubit is encoded with and , while two logical qubits are encoded with . The recursive relations among the subspaces employed in noiseless subsystem and decoherence free subspace play essential r\^oles in our implementation. The recursive relations also show that the number of gates required to encode logical qubits increases linearly in .
Cite
@article{arxiv.1106.5210,
title = {Recursive Encoding and Decoding of Noiseless Subsystem and Decoherence Free Subspace},
author = {Chi-Kwong Li and Mikio Nakahara and Yiu-Tung Poon and Nung-Sing Sze and Hiroyuki Tomita},
journal= {arXiv preprint arXiv:1106.5210},
year = {2013}
}
Comments
9 pages, 3 figures