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Abstract: The new field of quantum error correction has developed spectacularly since its origin less than two years ago. Encoded quantum information can be protected from errors that arise due to uncontrolled interactions with the environment. Recovery from errors can work effectively even if occasional mistakes occur during the recovery procedure. Furthermore, encoded quantum information can be processed without serious propagation of errors. Hence, an arbitrarily long quantum computation can be... (Update)
Context of citations to this paper: More
.... of a number of copies of H , the Hilbert space of the computer, evidently leads to the usual schemes for fault tolerant quantum computation [102]. Other solutions, such as embedding the nite dimensional Hilbert space H in a suitable in nite dimensional Hilbert space (e.g....
...constraints on the physical system. Specifically, fault tolerant quantum computation demands an extremely low error probability, e.g. [58] or 10 for some models [59] Fortunately we see possibilities for substantial improvements by extending the theoretical analysis beyond...
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BibTeX entry: (Update)
PRESKILL, J., "Reliable quantum computer", Tech. Rep. 9705031, LANL Quant-ph Archives, 1997, available at http://xxx.lanl.gov/ps/quant-ph/9705031. http://citeseer.ist.psu.edu/preskill97reliable.html More
@misc{ preskill97reliable,
author = "J. PRESKILL",
title = "Reliable quantum computer",
text = "PRESKILL, J., Reliable quantum computer, Tech. Rep. 9705031, LANL Quant-ph
Archives, 1997, available at http://xxx.lanl.gov/ps/quant-ph/9705031.",
year = "1997",
url = "citeseer.ist.psu.edu/preskill97reliable.html" }
Citations (may not include all citations):860 The Theory of Error-Correcting Codes (context) - MacWilliams, Sloane - 1977
52 Good quantum error-correcting codes exist - Calderbank, Shor - 1996
47 Mixed state entanglement and quantum error correction (context) - Bennett, DiVincenzo et al. - 1996
46 Quantum computations with cold trapped ions (context) - Cirac, Zoller - 1995
42 Multiple particle interference and quantum error correction (context) - Steane
40 A single quantum cannot be cloned (context) - Wootters, Zurek - 1982
34 Class of quantum error-correcting codes saturating the quant.. (context) - Gottesman - 1996
33 a Fault tolerant quantum computation with constant error - Aharonov, Ben-Or - 1996
30 Bulk spin resonance quantum computation - Gershenfeld, Chuang - 1997
19 Scheme for reducing decoherence in quantum memory (context) - Shor - 1995
18 Measurement of conditional phase shifts for quantum logic (context) - Turchette, Hood et al. - 1995
17 Nuclear magnetic resonance spectroscopy: an experimentally a.. - Cory, Fahmy et al. - 1996
15 Semiclassical Fourier transform for quantum computation - Griffiths, Niu - 1996
12 The capacity of a noisy quantum channel (context) - Lloyd - 1997
11 Quantum error-correcting codes need not completely reveal th.. (context) - Shor, Smolin - 1996
11 Is quantum mechanics useful (context) - Landauer - 1995
8 A theory of fault-tolerant quantum computation (context) - Gottesman
7 The physical nature of information (context) - Landauer - 1996
6 Codes for the quantum erasure channel (context) - Grassl, Beth - 1996
5 Impact of errors on a quantum computer architecture - Obenland, Despain
4 a Simulation of factoring on a quantum computer architecture - Obenland, Despain - 1996
3 Quantum computing: algorithms and error correction (context) - Kitaev
2 RSA factoring-by-web: the world-wide status (context) - Lenstra, Cowie et al. - 1996
1 Active stabilization (context) - Steane - 1997
1 to be published (context) - Gottesman, Evslin et al. - 1996
The graph only includes citing articles where the year of publication is known.
Documents on the same site (http://www.cs.mcgill.ca/~crepeau/qcomp.html):
Quantum Computation - Berthiaume (1997) (Correct)
Quantum Computation - Aharonov (1998) (Correct)
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