Noiseless subsystems

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The framework of noiseless subsystems has been developed as a tool to preserve fragile quantum information against decoherence.[1][2][3][4] In brief, when a quantum register (a Hilbert space) is subjected to decoherence due to an interaction with an external and uncontrollable environment, information stored in the register is, in general, degraded. It has been shown that when the source of decoherence exhibits some symmetries, certain subsystems of the quantum register are unaffected by the interactions with the environment and are thus noiseless. These noiseless subsystems are therefore very natural and robust tools that can be used for processing quantum information.

See also

References

  1. Zanardi, P.; Rasetti, M. (1997), "Noiseless quantum codes", Physical Review Letters 79 (17): 3306–3309, doi:10.1103/physrevlett.79.3306, Bibcode1997PhRvL..79.3306Z 
  2. "Decoherence-free subspaces for quantum computation", Physical Review Letters 81 (12): 2594–2597, 1998, doi:10.1103/physrevlett.81.2594, Bibcode1998PhRvL..81.2594L 
  3. Knill, Emanuel (2000), "Theory of quantum error correction for general noise", Physical Review Letters 84 (11): 2525–2528, doi:10.1103/PhysRevLett.84.2525, PMID 11018926, Bibcode2000PhRvL..84.2525K 
  4. "Theory of decoherence-free fault-tolerant universal quantum computation", Physical Review A 63 (4): 042307, 2001, doi:10.1103/physreva.63.042307, Bibcode2001PhRvA..63d2307K