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- Title
A Novel and Efficient Stabilizer Codes Over NonCyclic Hadamard Difference Sets for Quantum System.
- Authors
Goswami, Shivender; Kumar, Manoj; Mishra, R. K.; Rathor, Akash
- Abstract
Quantum error correction lies at the heart of building reliable quantum information processing systems. Stabilizer codes, a fundamental class of quantum errorcorrecting codes, play a pivotal role in mitigating the adverse effects of noise and decoherence in quantum systems. This paper introduces a novel construction of quantum stabilizer codes using Hadamard difference sets, an elegant mathematical concept derived from combinatorial design theory. In this paper, the construction of the quantum stabilizer codes over non- cyclic Hadamard difference sets with parameters (4m²,2m²-m, m²-m), where m is a positive integer is discussed. Firstly, the parity check matrices are constructed from the Circulant permutation matrices with the help of Hadamard difference sets and then, the Symplectic inner product condition for Hadamard difference sets over binary operation for parity check matrices are obtained to affirm the commutative condition for Stabilizer operators which is vital for the error detection. For application, we constructed a Hadamard difference sets with parameters (16,6,2) for m = 2 of ordered pair of the group Z2 Z8 × (non-cyclic group) and quantum stabilizer codes are obtained by parity-check matrix.
- Subjects
DIFFERENCE sets; PARITY-check matrix; BINARY operations; CIRCULANT matrices; INFORMATION storage &; retrieval systems; HADAMARD codes; PERMUTATIONS; CYCLIC codes; MARKOV spectrum
- Publication
IAENG International Journal of Applied Mathematics, 2024, Vol 54, Issue 7, p1416
- ISSN
1992-9978
- Publication type
Article