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A quantum error-correcting code is defined to be a unitary mapping (encoding) of k qubits (two-state quantum systems) into a subspace of the quantum state space of n qubits such that if any t of the qubits undergo arbitrary decoherence, not necessarily independently, the resulting n qubits can be used to faithfully reconstruct the original quantum state of the k encoded qubits. Quantum error-correcting codes are shown to exist with asymptotic rate k/n=1-2H₂ (2t/n) where H₂ (p) is the binary entropy function -plog₂p- (1-p) log₂ (1-p). Upper bounds on this asymptotic rate are given. 1996 The American Physical Society.
Calderbank et al. (Thu,) studied this question.
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