Andrew S. Fletcher, Peter W. Shor, Moe Z. Win
Published 2007-10-04Version 1
We consider error correction procedures designed specifically for the amplitude damping channel. We analyze amplitude damping errors in the stabilizer formalism. This analysis allows a generalization of the [4,1] `approximate' amplitude damping code of quant-ph/9704002. We present this generalization as a class of [2(M+1),M] codes and present quantum circuits for encoding and recovery operations. We also present a [7,3] amplitude damping code based on the classical Hamming code. All of these are stabilizer codes whose encoding and recovery operations can be completely described with Clifford group operations. Finally, we describe optimization options in which recovery operations may be further adapted according to the damping probability gamma.
Comments: 11 pages, 12 figures
Coherence evolution in two-qubit system going through amplitude damping channel
Dependence of entanglement on initial states under amplitude damping channel in non-inertial frames
Robustness of channel-adapted quantum error correction
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