Title :
The Limits of the Wallace Approximation for PMR Recording at High Areal Density
Author :
Marchon, Bruno ; Saito, Kazuyuki ; Wilson, Brian ; Wood, Roger
Author_Institution :
Hitachi GST, San Jose Res. Center, San Jose, CA, USA
Abstract :
This paper discusses the validity of the Triple Harmonic method and the Wallace readback model for the determination of head-disk spacing variations in today´s perpendicular recording (PMR) systems at >; 500 Gb/in2 areal density. For the recording system investigated here, and in the limit of high frequency, approximately beyond the frequency corresponding to the 2 T (0011) pattern, this method fails, as head and electronic noise start to interfere. In the low-frequency range of PMR systems, the Wallace equation does not apply any longer. Accurate magnetic spacing variations can be obtained by using the FFT of the intensity ratio of the readback signals, and fitting with the appropriate algebraic expression. Using this method, a repeatability of less than 0.1 nm was obtained, by using a random data pattern of only four 512 bytes data sector long.
Keywords :
fast Fourier transforms; magnetic heads; magnetic recording noise; PMR recording; Wallace equation; Wallace readback approximation; appropriate algebraic expression; areal density; data sector; electronic noise; head-disk spacing; intensity ratio; magnetic spacing; perpendicular recording systems; random data pattern; readback signals; triple harmonic method; Equations; Head; Magnetic heads; Magnetic separation; Media; Perpendicular magnetic recording; Flying height control; Wallace spacing loss; head-disk interface; magnetic recording; readback signal;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2157672
