Title :
Thin-film recording media on flexible substrates for tape applications
Author :
Lee, Hwan-Soo ; Wang, Lin ; Bain, James A. ; Laughlin, David E.
Author_Institution :
Data Storage Syst. Center, Carnegie Mellon Univ., Pittsburgh, PA, USA
Abstract :
Co-based alloys were investigated as candidates for sputtered thin-film magnetic tape media. Magnetic media on polymeric substrates having acceptable magnetic properties were obtained by applying NiAl/CrMn underlayers prior to CoCrPt deposition with a nonmagnetic CoCrTa intermediate layer. Typical sputtered tape media deposited on traditional polymeric substrates at room temperature revealed sideband modulation noise and large intergranular exchange coupling. A substantial improvement in surface roughness by utilizing smooth polymeric substrates eliminated this modulation noise and accounted for the signal dependent broad-band noise power. This suggests that transition noise is a dominant component of medium noise in sputtered tape media. Additionally, substrate bias is shown to be effective in producing grain decoupling that is necessary for good signal-to-noise ratio.
Keywords :
chromium alloys; cobalt alloys; magnetic multilayers; magnetic recording noise; magnetic tape storage; magnetic thin films; nickel alloys; surface roughness; Co-based alloys; CoCrPt; CoCrTa; NiAl-CrMn; flexible substrates; grain decoupling; intergranular exchange coupling; magnetic media; medium noise; polymeric substrates; sideband modulation noise; sputtered tape media; sputtered thin-film magnetic tape media; substrate bias; surface roughness; tape applications; thin-film recording media; transition noise; Magnetic films; Magnetic noise; Magnetic properties; Magnetic recording; Polymer films; Rough surfaces; Sputtering; Substrates; Temperature; Transistors; Intergranular exchange coupling; polymeric substrates; sideband modulation noise; sputtered thin-film magnetic tape media; substrate bias;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2004.838041
