Perturbation approach for nuclear magnetic resonance solid-state quantum computation

G. P. Berman; D. I. Kamenev; V. I. Tsifrinovich

doi:10.1155/S1110757X03110182

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Home > Journals > J. Appl. Math. > Volume 2003 > Issue 1 > Article

23 January 2003 Perturbation approach for nuclear magnetic resonance solid-state quantum computation

G. P. Berman, D. I. Kamenev, V. I. Tsifrinovich

J. Appl. Math. 2003(1): 35-53 (23 January 2003). DOI: 10.1155/S1110757X03110182

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Abstract

A dynamics of a nuclear-spin quantum computer with a large number $(L=1000)$ of qubits is considered using a perturbation approach. Small parameters are introduced and used to compute the error in an implementation of an entanglement between remote qubits, using a sequence of radio-frequency pulses. The error is computed up to the different orders of the perturbation theory and tested using exact numerical solution.

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G. P. Berman. D. I. Kamenev. V. I. Tsifrinovich. "Perturbation approach for nuclear magnetic resonance solid-state quantum computation." J. Appl. Math. 2003 (1) 35 - 53, 23 January 2003. https://doi.org/10.1155/S1110757X03110182

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Published: 23 January 2003

First available in Project Euclid: 7 April 2003

zbMATH: 1031.81017

MathSciNet: MR1981856

Digital Object Identifier: 10.1155/S1110757X03110182

Subjects:

Primary: 37Mxx , 65Pxx

Secondary: 81Qxx , 94Axx

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Vol.2003 • No. 1 • 23 January 2003

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G. P. Berman, D. I. Kamenev, V. I. Tsifrinovich "Perturbation approach for nuclear magnetic resonance solid-state quantum computation," Journal of Applied Mathematics, J. Appl. Math. 2003(1), 35-53, (23 January 2003)

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