Title :
Carbon Overcoat Oxidation in Heat-Assisted Magnetic Recording
Author :
Pathem, Bala Krishna ; Guo, Xing-Cai ; Rose, Franck ; Wang, Nan ; Komvopoulos, K. ; Schreck, Erhard ; Marchon, Bruno
Author_Institution :
San Jose Res. Center, HGST, San Jose, CA, USA
Abstract :
Due to the ever increasing demand for higher storage capacity in disk drives, novel techniques to read and write information, such as heat-assisted magnetic recording are being developed. However, the recording temperatures impact not only the media but also the carbon overcoat that is used to protect both the media and writing head. In this paper, we discuss the effect of thermal annealing on the rate of carbon erosion on overcoats deposited using two different techniques, viz. filtered-cathodic arc and plasma-enhanced chemical vapor deposition.
Keywords :
annealing; carbon; oxidation; plasma CVD; protective coatings; thermomagnetic recording; C; carbon erosion rate; carbon overcoat oxidation; disk drives; filtered-cathodic arc; heat-assisted magnetic recording; plasma-enhanced chemical vapor deposition; recording temperatures; storage capacity; thermal annealing effect; writing head; Annealing; Carbon; Magnetic heads; Media; Oxidation; Temperature measurement; Thickness measurement; Carbon overcoat; Raman; graphitization; head-disk interface; heat-assisted magnetic recording; oxidation;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2012.2236645
