Title :
Augmenting the Williams-Comstock model to predict effects of varying write current
Author :
Goldber, Jason S. ; Hoagland, A.S. ; Monson, James E.
Author_Institution :
Inst. for Inf. Storage Technol., Santa Clara Univ., CA, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
The Williams-Comstock write model is modified and extended to include variable write current amplitude. Additionally, this model takes into account the saturation magnetization, Ms, (not in the Williams-Comstock model) as well as the remanent magnetization, Mr , and coercive squareness, S*, of the medium. An alternate method to the one used by Williams-Comstock for cases of high medium magnetization and low spacing is outlined. This model predicts a minimum value for the transition parameter, a, less than Williams-Comstock and at a larger value of optimum write current. Predictions from this model are compared with a fully self-consistent, computer-based model. Agreement is reasonably good, particularly for low medium magnetization. A sensitivity analysis shows that the transition parameter, a, is relatively insensitive to changes in write current compared to the transition location, xt
Keywords :
magnetic recording; sensitivity analysis; Williams-Comstock model; coercive squareness; remanent magnetization; saturation magnetization; self-consistent computer model; sensitivity analysis; transition location; transition parameter; write current; Analytical models; Educational institutions; Geometry; Magnetic heads; Magnetic hysteresis; Magnetic materials; Predictive models; Saturation magnetization; Sensitivity analysis; Solid modeling;
Journal_Title :
Magnetics, IEEE Transactions on
