|
related topics |
{error, code, errors} |
{states, state, optimal} |
{time, decoherence, evolution} |
{state, algorithm, problem} |
{qubit, qubits, gate} |
{spin, pulse, spins} |
{let, theorem, proof} |
{phase, path, phys} |
{group, space, representation} |
{level, atom, field} |
{classical, space, random} |
{information, entropy, channel} |
{algorithm, log, probability} |
{field, particle, equation} |
{operator, operators, space} |
{state, states, entangled} |
{equation, function, exp} |
|
Decoherence Correction by the Zeno Effect and Non-Holonomic Control
E. Brion, G. Harel, N. Kebaili, V. M. Akulin, I. Dumer
abstract: We show that multidimensional Zeno effect combined with non-holonomic control
allows to efficiently protect quantum systems from decoherence by a method
similar to classical coding. Contrary to the conventional approach, our method
is applicable to arbitrary error-inducing Hamiltonians and general quantum
systems. We also propose algorithms of finding encoding that approaches the
Hamming upper bound along with methods of practical realizations of the
encodings. Two new codes protecting 2 information qubits out of 7 and 4
information qubits out of 9 against a single error with arbitrarily small
probability of failure are constructed as an example.
- oai_identifier:
- oai:arXiv.org:quant-ph/0211003
- categories:
- quant-ph
- comments:
- 4 revtex pages
- doi:
- 10.1209/epl/i2003-10206-0 10.1088/1464-4266/7/10/022
- arxiv_id:
- quant-ph/0211003
- journal_ref:
- Europhys. Lett. 66, 157 (2004); J. Opt. B: Quantum Semiclass.
Opt. 7, S353 (2005)
- created:
- 2002-10-31
Full article ▸
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