Analytical Polarization Transfer Functions for Four Coupled Spins12under Isotropic Mixing Conditions

Analytical polarization and coherence transfer functions are presented for spin systems consisting of three spins 1/2 with arbitrary coupling constants under planar mixing conditions. In addition, simplified transfer functions were derived for symmetric coupling topologies. Based on these transfer f

Analytical polarization and coherence transfer functions are presented for a spin system consisting of three dipolar coupled homonuclear spins 1 2 under energy matched conditions. Based on these transfer functions, optimal durations of Hartmann-Hahn mixing periods can be determined for arbitrary dip

The superposition of scalar and residual dipolar couplings gives rise to so-called cylindrical mixing Hamiltonians in dipolar coupling spectroscopy. General analytical polarization and coherence transfer functions are presented for three cylindrically coupled spins 12 under energy-matched conditions

Analytical coherence transfer functions are presented for spin systems consisting of two spins 1 under planar mixing conditions. Compared to isotropic mixing experiments, larger transfer amplitudes are found and differences in the multiplet patterns are discussed.

On page 176 in Table 2 (d) the coefficients c 1 and c 2 for the transfer from A ϭ I iz to B ϭ I iy I jx Ϫ I ix I jy should read c 1 ϭ Ϫ 1 6 [1 ϩ 2/ ͌ 3 sin(2 (ki)j )] and c 2 ϭ Ϫ 1 6 [1 Ϫ 2/ ͌ 3 sin(2 (ki)j )]. The corrections do not affect any of the other results given in the paper. The authors th