The calculation of NMR spectra of rotating dipolar solids by the canonical transformation technique

A simple method is described for the calculation of magic-angle-spinning (MAS) spectra of solids in the presence of chemical exchange. The method converges quickly, allowing rapid calculation of the spectra, Calculated spectra are given for molecular motion involving 2 and 6 sites.

A simple two-dimensional NMR procedure is used to obtain high-resolution chemical shift-dipolar correlated spectra of magicangle spinning solids. The dipolar spectrum in the second dimension is obtained without rotational sidebands as the result of Fourier transform of reverse cross-polarization evo

A new radiofrequency pulse sequence is introduced for the efficient reintroduction of magnetic dipolar couplings in the magic-angle-spinning NMR of solids. The sequence involves seven phase-shifted radiofrequency pulse cycles, timed to span two rotational periods of the sample. Double-quantum cohere

Rotational-echo double-resonance (REDOR) is a dipolar-dephasing NMR technique that provides measurement of dipolar couplings between nuclei in solids, and therefore allows calculation of internuclear distances. Time-domain REDOR dephasing signals do not oscillate in a periodic manner, and the analys