A General Solution of the Standard Magnetization Transfer Model

The standard model of magnetization transfer consists of six

The general solution of the standard model extends its coupled, first-order differential equations which describe a lossless applicability to any experimental procedure. In addition to exchange of magnetization between two sites. The system of differthe cases considered in (12, 13) it allows one to investigate, ential equations is solved semi-analytically in full generality. The e.g., the case of continuous off-resonance irradiation apsolution allows one to model any experiment generating magnetiproaching resonance, or off-resonance effects arising in zation transfer. It is especially useful in investigation spin systems pulsed MT experiments. The extended applicability is particsubjected to pulsed magnetization transfer experiments. ᭧ 1998 ularly useful for designing MT pulse sequences and for ob-Academic Press serving MT of off-resonance spins by MR spectroscopy (see,