Spinning motion of symmetric top molecules in the friction model of molecular reorientation

Calculated cross sections for collisional defocusing of a beam of symmetric-top molecules in a hexapole field are compared with new and recent experimental values. The calculations show that collision processes involving changes in K have much smaller cross sections than those for changing M, and cr

## Abstract The rotational mobility of molecules in glassy polymers was investigated by quantitative simulations of electron spin resonance spectra of nitroxide spin probes with molecules of different sizes. The motional models were determined unambiguously when the experimental and calculated spec

Nascent Doppler profiles are measured for hot H-atom-molecule collisions in numerous rotational sublevels of two symmetric tops. Linewidths for CDF, molecules due to hot H-atom collisions increase with the quantum number K. In contrast, linewidths for CDsF molecules due to hot H-atom collisions decr

Rcccived 17 f\pril 1984 \lolecular reorientation in the presence of internal rotation is investigated and an analytical espression for the spin-rotational rate of a nucleus attached to the internal rotor is obtained in terms of the internal angular-momentum correlation rime. -4 model of n symmetric-

Closed-form, numerical algorithms are presented for calculating REDOR dephasing for three general cases: (i) collections of isolated I-S spin pairs; (ii) many S spins coupled to an I spin; and (iii) an I-S spin pair in relative motion. For the case when more than one S spin is dipolar coupled to an