Smallest quantum codes for amplitude damping noise

Sep 30, 2024
6 pages
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Abstract: (arXiv)
We describe the smallest quantum error correcting (QEC) code to correct for amplitude-damping (AD) noise, namely, a 3-qubit code that corrects all the single-qubit damping errors. We generalize this construction to a family of codes that correct AD noise up to any fixed order of the damping strength. We underpin the fundamental connection between the structure of our codes and the noise structure, via a relaxed form of the Knill-Laflamme conditions, that are different from existing formulations of approximate QEC conditions. Although the recovery procedure for this code is non-deterministic, our codes are optimal with respect to overheads and outperform existing codes to tackle AD noise in terms of entanglement fidelity. This alternate formulation of approximate QEC further leads us to a new classes of quantum codes tailored to AD noise and also gives rise to a noise-adapted quantum Hamming bound for AD noise.
Note:
  • 6 pages + 8 page supplementary material, 8 figures
  • noise
  • quantum error correction
  • structure
  • family
  • entanglement
  • qubit