Scaling analysis and distribution of the rotational correlation times of atracer in rubbery and glassy poly(vinyl acetate): An electron spin resonance investigation
M. Faetti et al., Scaling analysis and distribution of the rotational correlation times of atracer in rubbery and glassy poly(vinyl acetate): An electron spin resonance investigation, MACROMOLEC, 32(6), 1999, pp. 1876-1882
We studied by ESR the rotational motion of a paramagnetic tracer (a deutera
ted N-15-enriched nitroxide) in poly(vinyl acetate) (PVAc). The reorientati
on of the tracer occurs via jumps of about 50 degrees with a heterogeneous
distribution of correlation times. Depending on the temperature range, the
average correlation time [tau] scales as the alpha, beta, and gamma relaxat
ion times of PVAc, i.e., [tau] = C-i[tau](i), i = alpha, beta, gamma. On co
oling, [tau] tracks the alpha relaxation to about the alpha-beta bifurcatio
n temperature and then the beta relaxation down to the glass transition. In
glassy PVAc [tau]/[tau] = C-gamma approximate to 1.