Controlling coherence using the internal structure of hard pi pulses

Dale Li; R. G. Ramos; S. E. Barrett; Yanqun Dong

arxiv: 0804.3087 · v1 · submitted 2008-04-18 · ❄️ cond-mat.other

Controlling coherence using the internal structure of hard pi pulses

Yanqun Dong , R. G. Ramos , Dale Li , S. E. Barrett This is my paper

classification ❄️ cond-mat.other

keywords coherencehardpulsesresonanceapplicationsapproachapproximationaverage

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The tiny difference between hard pi pulses and their delta-function approximation can be exploited to control coherence. Variants on the magic echo that work despite a large spread in resonance offsets are demonstrated using the zeroth- and first-order average Hamiltonian terms, for 13-C NMR in C60. The 29-Si NMR linewidth of Silicon has been reduced by a factor of about 70,000 using this approach, which also has potential applications in magnetic resonance microscopy and imaging of solids.

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Controlling coherence using the internal structure of hard pi pulses

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