Response theory for nonresonant hole burning: Stochastic dynamics

The time signals relevant for nonresonant spectral hole burning, a pump-wai t-probe method designed to investigate slow relaxation, are calculated. The step-response function following the application of a high-amplitude ac fi eld (pump) and a intermediate waiting period is show to be the sum of the e quilibrium-integrated response and a modi cation due to the preparation via ac irradiation. Both components are calculated for a class of stochastic d ipole reorientation models. The results indicate that the method can be use d for a clearcut distinction of homogeneously and heterogeneously broadened susceptibilities as they occur in the slow primary relaxation of supercool ed liquids and other disordered materials. This is because only in the hete rogeneous case is a frequency-selective modification of the response possib le.