We propose a passively self-error-rejecting single-qubit transmission scheme for an arbitrary polarization state of a single qubit over a collective-noise channel, without resorting to additional qubits and entanglement. By splitting a single qubit into some wavepackets with some Mach-Zehnder interferometers, we can obtain an uncorrupted state with a success probability approaching 100% via postselection in different time bins, independent of the parameters of collective noise. It is simpler and more flexible than the schemes utilizing decoherence-free subspace and those with additional qubits. One can directly apply this scheme to almost all quantum communication protocols based on single photons or entangled photon systems against a collective noise.
@article{arxiv.0801.0256,
title = {Passively self-error-rejecting qubit transmission over a collective-noise channel},
author = {Fu-Guo Deng and Xi-Han Li and Hong-Yu Zhou},
journal= {arXiv preprint arXiv:0801.0256},
year = {2011}
}
Comments
9 pages, 4 figures. The finial version of arXiv:0801.0256 after it is originally submitted online on 1 Jan 2008