Quantum information processing using nuclear and electron magnetic resonance: review and prospects

J. Baugh; J. Chamilliard; C. M. Chandrashekar; M. Ditty; A. Hubbard; R. Laflamme; M. Laforest; D. Maslov; O. Moussa; C. Negrevergne; M. Silva; S. Simmons; C. A. Ryan; D. G. Cory; J. S. Hodges; C. Ramanathan

Quantum information processing using nuclear and electron magnetic resonance: review and prospects

Quantum Physics 2014-05-22 v1

Authors: J. Baugh , J. Chamilliard , C. M. Chandrashekar , M. Ditty , A. Hubbard , R. Laflamme , M. Laforest , D. Maslov , O. Moussa , C. Negrevergne , M. Silva , S. Simmons , C. A. Ryan , D. G. Cory , J. S. Hodges , C. Ramanathan

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Abstract

This paper describes recent progress using nuclear magnetic resonance (NMR) as a platform for implementing quantum information processing (QIP) tasks. The basic ideas of NMR QIP are detailed, examining the successes and limitations of liquid and solid state experiments. Finally, a future direction for implementing quantum processors is suggested,utilizing both nuclear and electron spin degrees of freedom.

Keywords

quantum computing magnetic resonance nuclear physics

Cite

@article{arxiv.0710.1447,
  title  = {Quantum information processing using nuclear and electron magnetic resonance: review and prospects},
  author = {J. Baugh and J. Chamilliard and C. M. Chandrashekar and M. Ditty and A. Hubbard and R. Laflamme and M. Laforest and D. Maslov and O. Moussa and C. Negrevergne and M. Silva and S. Simmons and C. A. Ryan and D. G. Cory and J. S. Hodges and C. Ramanathan},
  journal= {arXiv preprint arXiv:0710.1447},
  year   = {2014}
}

Comments

24 pages, 8 figures (to appear in Physics in Canada, Special Issue on Quantum Computing and Quantum Information, 2007)

Quantum information processing using nuclear and electron magnetic resonance: review and prospects

Abstract

Keywords

Cite

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