Avoiding Quantum Chaos in Quantum Computation

Details Avoiding Quantum Chaos in Quantum Computation Avoiding Quantum Chaos in Quantum Computation

2000-12-19

arxiv.org/abs/quant-ph/0012106v1

Phys. Rev. E 65 (2001) 015204

Physics

Quantum Physics

RevTex, 5 pages including 3 eps-figures

Scientific paper

10.1103/PhysRevE.65.015204

We study a one-dimensional chain of nuclear $1/2-$spins in an external time-dependent magnetic field. This model is considered as a possible candidate for experimental realization of quantum computation. According to the general theory of interacting particles, one of the most dangerous effects is quantum chaos which can destroy the stability of quantum operations. According to the standard viewpoint, the threshold for the onset of quantum chaos due to an interaction between spins (qubits) strongly decreases with an increase of the number of qubits. Contrary to this opinion, we show that the presence of a magnetic field gradient helps to avoid quantum chaos which turns out to disappear with an increase of the number of qubits. We give analytical estimates which explain this effect, together with numerical data supporting

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