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Paper detail

Minimum-Time Selective Control of Homonuclear Spins

In NMR (Nuclear Magnetic Resonance) quantum computation, the selective control of multiple homonuclear spins is usually slow because their resonance frequencies are very close to each other. To quickly implement controls against decoherence effects, this paper presents an efficient numerical algorithm fordesigning minimum-time local transformations in two homonuclear spins. We obtain an accurate minimum-time estimation via geometric analysis on the two-timescale decomposition of the dynamics. Such estimation narrows down the range of search for the minimum-time control with a gradient-type optimization algorithm. Numerical simulations show that this method can remarkably reduce the search efforts, especially when the frequency difference is very small and the control field is high. Its effectiveness is further demonstrated by NMR experiments with two homunuclear carbon spins in a trichloroethylene (C2H1Cl3) sample system.

preprint2016arXivOpen access
Tian-Ming ZhangRe-Bing WuFei-Hao ZhangTzyh-Jong TarnGui-Lu Long
quant-ph
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Tian-Ming ZhangRe-Bing WuFei-Hao ZhangTzyh-Jong TarnGui-Lu Long

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