Average Liouvillian theory revisited: cross-correlated relaxation between chemical shift anisotropy and dipolar couplings in the rotating frame in nuclear magnetic resonance

A review is given of the mathematical foundations of average Liouvillian theory and examples are provided of average Liouvillian expressions derived for sequences in nuclear magnetic resonance which possess temporal symmetry or antisymmetry. The utility of this approach is demonstrated in the design of pulse sequences to measure the effect of cross-correlation between chemical shift anisotropy and dipolar couplings on relaxation rates in biomolecules. Experimental verification of the theory is carried out on a N-15 labelled sample of ubiquitin.