A thermo-mechanical model that predicts the changes in thermal asperities a
s a function of increasing areal density is described. Conceptually, the pr
oblem is divided into two portions: the collision and relative motion of an
asperity along the slider, and the subsequent diffusion of thermal energy
into the head in the vicinity of the read element. The former is treated us
ing a quasi-static spring model for the various mechanical degrees of freed
om; the later with a scaling model for the heat transfer. The thermal model
was verified by using a focused fast laser pulse to simulate a thermal tra
nsient at the read element. The predictions of the full model were also com
pared with measured thermal asperities that were produced on a spin-stand.
The results support one of the model's main predictions: a significant incr
ease in the amplitude of worst case thermal asperity events can be expected
in the next few years.