[1] |
Shor P W. Scheme for reducing decoherence in quantum computer memory[J]. Phys Rev A, 1995, 52: 2 493-2 496.
|
[2] |
Calderbank A R, Rains E M, Shor P M, et al. Quantum error correction via codes over GF(4) [J]. IEEE Trans Inform Theory, 1998, 44: 1 369-1 387.
|
[3] |
Cohen G, Encheva S, Litsyn S. On binary constructions of quantum codes[J]. IEEE Trans Inform Theory, 1999, 45: 2 495-2 498.
|
[4] |
Li R, Li X. Binary construction of quantum codes of minimum distance three and four[J]. IEEE Trans Inform Theory, 2004, 50: 1 331-1 336.
|
[5] |
Li R, Li X. Quantum codes constructed from binary cyclic codes[J]. Int J Quant Inform, 2004, 2: 265-272.
|
[6] |
Steane A M. Quantum Reed-Muller codes[J]. IEEE Trans Inform Theory, 1999, 45: 1 701-1 703.
|
[7] |
Lin X. Quantum cyclic and constacyclic codes[J]. IEEE Trans Inform Theory, 2004, 50: 547-549.
|
[8] |
Thangaraj A, McLaughlin S W. Quantum codes from cyclic codes over GF(4m)[J]. IEEE Trans Inform Theory, 2001, 47: 1 176-1 178.
|
[9] |
Kai X, Zhu S. Quaternary construction of quantum codes from cyclic codes over F4+uF4[J]. Int J Quant Inform, 2011, 9: 689-700.
|
[10] |
Qian J, Ma W, Guo W. Quantum codes from cyclic codes over finite ring[J]. Int J Quant Inform, 2009, 7: 1 277-1 283.
|
[11] |
Ashikhmin A, Knill E. Nonbinary quantum stabilizer codes[J]. IEEE Trans Inform Theory, 2001, 47(7): 3 065-3 072.
|
[12] |
Bachoc C. Applications of coding theory to the construction of modular lattices[J]. J Combin, Theory Ser A, 1997, 78(1): 92-119.
|
[13] |
Gaborit P. Mass formulas for self-dual codes over Z4 and Fq+uFq rings[J]. IEEE Trans Inform Theory, 1996, 42: 1 222-1 228.
|
[14] |
McDonald B R. Finite Rings With Identity[M]. New York: Dekker, 1974.
|
[15] |
Dinh H Q, Lpez-Permouth S R. Cyclic and negacyclic codes over finite chain rings[J]. IEEE Trans Inform Theory, 2004, 50: 1 728-1 744.
|
[1] |
Shor P W. Scheme for reducing decoherence in quantum computer memory[J]. Phys Rev A, 1995, 52: 2 493-2 496.
|
[2] |
Calderbank A R, Rains E M, Shor P M, et al. Quantum error correction via codes over GF(4) [J]. IEEE Trans Inform Theory, 1998, 44: 1 369-1 387.
|
[3] |
Cohen G, Encheva S, Litsyn S. On binary constructions of quantum codes[J]. IEEE Trans Inform Theory, 1999, 45: 2 495-2 498.
|
[4] |
Li R, Li X. Binary construction of quantum codes of minimum distance three and four[J]. IEEE Trans Inform Theory, 2004, 50: 1 331-1 336.
|
[5] |
Li R, Li X. Quantum codes constructed from binary cyclic codes[J]. Int J Quant Inform, 2004, 2: 265-272.
|
[6] |
Steane A M. Quantum Reed-Muller codes[J]. IEEE Trans Inform Theory, 1999, 45: 1 701-1 703.
|
[7] |
Lin X. Quantum cyclic and constacyclic codes[J]. IEEE Trans Inform Theory, 2004, 50: 547-549.
|
[8] |
Thangaraj A, McLaughlin S W. Quantum codes from cyclic codes over GF(4m)[J]. IEEE Trans Inform Theory, 2001, 47: 1 176-1 178.
|
[9] |
Kai X, Zhu S. Quaternary construction of quantum codes from cyclic codes over F4+uF4[J]. Int J Quant Inform, 2011, 9: 689-700.
|
[10] |
Qian J, Ma W, Guo W. Quantum codes from cyclic codes over finite ring[J]. Int J Quant Inform, 2009, 7: 1 277-1 283.
|
[11] |
Ashikhmin A, Knill E. Nonbinary quantum stabilizer codes[J]. IEEE Trans Inform Theory, 2001, 47(7): 3 065-3 072.
|
[12] |
Bachoc C. Applications of coding theory to the construction of modular lattices[J]. J Combin, Theory Ser A, 1997, 78(1): 92-119.
|
[13] |
Gaborit P. Mass formulas for self-dual codes over Z4 and Fq+uFq rings[J]. IEEE Trans Inform Theory, 1996, 42: 1 222-1 228.
|
[14] |
McDonald B R. Finite Rings With Identity[M]. New York: Dekker, 1974.
|
[15] |
Dinh H Q, Lpez-Permouth S R. Cyclic and negacyclic codes over finite chain rings[J]. IEEE Trans Inform Theory, 2004, 50: 1 728-1 744.
|