[5] Nielsen M A, Chuang I L. Quantum Computation and Quantum Information [M]. Cambridge University Press, 2000: 122-145.
[7] Brooks P, Preskill J. Fault-tolerant quantum computation with asymmetric Bacon-Shor codes [J]. Physical Review A, 2013, 87(3): 032310-032325.
[11] Shor P W. Fault-tolerant quantum computation [C]. Proceedings of the 37th Annual Symposium on Foundations of Computer Science, 1996: 56-65.
[12] Kitaev A Y. Quantum computation: Algorithms and error correction [J]. Russ. Math. Surv., 1997, 52: 1191-1249.
[13] Weinstein Y, Buchbinder S. Use of Shor states for the [7,1,3] quantum error-correcting code [J]. Phys. Rev. A, 2012, 86: 052336-052342.
[14] Weinstein Y S. Non-fault-tolerant T gates for the [7,1,3] quantum error-correction code [J]. Phys. Rev. A, 2013, 87(3): 032320-032325.
[15] Weinstein Y S, Buchbinder S D. Use of Shor states for the [7,1,3] quantum error-correcting code [J]. Phys. Rev. A, 2012, 8(5): 052336-052342.
[16] Buchbinder S, Huang C, Weinstein Y. Encoding an arbitrary state in a [7,1,3] quantum error correction code [J]. Quantum Information Process, 2013, 12: 699-719.
[17] Aliferis P, Gottesman D, Preskill J. Quantum accuracy threshold for concatenated distance-3 codes [J]. Quantum Inf. Comp., 2006, 6: 97-165.
[18] Knill E, Laflamme R, Zurek W. Resilient quantum computation: Error models and thresholds [J]. Proceeding of the Royal Society A, 1997, 454: 365-384.