Title :
Flat-top pole write head design
Author :
He, Qing ; Stoev, Kroum ; Yingjian Chen ; Dang, Xiaozhong ; Chen, Yingjian ; Gong, Heng ; Kemshetti, Ravindra ; Wang, James ; Liu, Francis ; Seagle, Dave ; Lederman, Marcos ; Re, Mark
Author_Institution :
Read-Rite Corp., Fremont, CA, USA
Abstract :
A write head design with pedestal-defined throat and flat-top pole is presented. The flat-top pole design enables critical dimension control and extendibility to narrower feature size. Write head performance improves further by implementing a single-layer six-turn, closely packed coil with yoke length of 14 μm and incorporating a sputtered high moment material on both top and bottom poles. With write current of 40 mA, better than 35 dB overwrite and less than 16% (-16dB) nonlinear transition shift can be achieved on the medium with coercivity of 4400 Oe and Mrt of 0.32 memu/cm2 at areal densities up to 60 Gb/in2.
Keywords :
coercive force; magnetic heads; magnetic recording; 14 micron; 40 mA; coercivity; critical dimension control; flat-top pole write head design; write head performance; Coils; Giant magnetoresistance; Helium; Insulation life; Lithography; Magnetic heads; Manufacturing; Perpendicular magnetic recording; Process design; Production;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2003.815453
