Intramolecular interactions and spin–lattice relaxation times of methyl groups

The magnetic field dependence of the water-proton spin-lattice relaxation rate (1/T(1)) in tissues results from magnetic coupling to the protons of the rotationally immobilized components of the tissue. As a consequence, the magnetic field dependence of the water-proton (1/T(1)) is a scaled report o

Calculation of tissue TI in double spin-echo imaging (90"-T-I 80"-2T-1 SO0) using two repetition times (6, and b2) has entailed an approximation that ignores the two 180" pulses. The theoretical consequence of the simplification is to overestimate TI with a fractional error that increases with incre

Recent developments in the mathematical solution of nuclear magnetic ( ) resonance NMR relaxation equations describing rotational motion allow investigators to determine correlation times, , on the nanosecond time scale. NMR rotational correlation equations for quadrupolar and dipolar relaxation can

This review of methods of measuring spin-lattice T relaxation times 1 comprises 283 references, including 90 references on magnetic resonance imaging. Annotations give brief descriptions of each reference. References are organized by major categories, with cross-references to other topics. Major cat

Proton spin-lattice, T I , and spin-spin, Tz, relaxation times of uniaxially stretched polypropylene film were measured at 40°C using a wide line pulse spectrometer operating at 19.8 MHz. T11, the longer T I , increases almost linearly with increasing stretching ratio, and Tza, Tz of the amorphous r