Analytical Coherence-Transfer Functions for the General AMX Spin System under Isotropic Mixing

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

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

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

## Abstract It is well known that when compared to conventional spin‐echo (CSE) imaging for equivalent effective echo times, fast spin‐echo (FSE) imaging experiments yield higher signal intensities for coupled spin systems, such as that for lipid. One hypothesis put forth for this phenomenon is the