Journal
IEEE ACCESS
Volume 10, Issue -, Pages 44669-44676Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/ACCESS.2022.3170039
Keywords
Qubit; Error correction; Encoding; Logic gates; Quantum state; Decoding; Error correction codes; Quantum information; phase errors; asymmetric quantum error correction; encoding; syndrome measurement; decoding
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This paper discusses the concept of asymmetric quantum error correction (AQEC) and proposes an efficient approach for AQEC with increased fidelity to 85.89% and reduced circuit depth to 48%.
Most of the quantum error correction methods are symmetric. Symmetric methods are implemented by considering the amplitude of bit flip(X) and phase flip(Z) errors as same. With the quantum experiments, it is observed that the amplitude of Z errors are more compared to X errors. Due to which the need of asymmetric error correction has increased. This paved a path for the development of asymmetric error correction methods. In this paper, we discussed the concept of asymmetric quantum error correction (AQEC) and proposed an efficient approach for AQEC with encoding, syndrome measurement and decoding operations with increased fidelity to 85.89% and reduced circuit depth to 48%.
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