Magnetic properties of ion beam deposited CoPt and CoCrPt films for hard bias application in high density magnetoresistive heads

Abstract: AbsiracCWe have observed a 30% of enhancement in coercivity, H,, or a 40% increase in remnant magnetization in ion beam deposited (IBD) Cr/CoPt films as compared to IBD Cr/CoCrPt films. In addition, the magnetic properties of these hard bias films exhibit a strong dependence of on substrate and underlayer. Higher coercivity values associated with enhanced hcp CO (lOi0) crystallographic orientation were measured in films grown on substrates in the preference order of glass, Si/Al2O3 and Si. Copt films grown on … Show more

“…Co Pt films with high coercivity and remanance are well suited for such longitudinal stabilization applications, however, their microstructural and magnetic properties are extremely sensitive to the microscopic details of the substrate surface and deposition technique [3]. A lattice matched seedlayer of appropriate thickness is usually used to induce strong in-plane anisotropy resulting in high coercivity and square hysteresis loops in CoPt films [4], [5].…”

Effect of seedlayer and junction geometry on permanent magnet stabilization of magnetoresistive heads

“…Co Pt films with high coercivity and remanance are well suited for such longitudinal stabilization applications, however, their microstructural and magnetic properties are extremely sensitive to the microscopic details of the substrate surface and deposition technique [3]. A lattice matched seedlayer of appropriate thickness is usually used to induce strong in-plane anisotropy resulting in high coercivity and square hysteresis loops in CoPt films [4], [5].…”

Effect of seedlayer and junction geometry on permanent magnet stabilization of magnetoresistive heads

Spin—Valve and Spin—Tunneling Devices: Read Heads, MRAMs, Field Sensors

Thin film integrated AMR sensor for linear position measurements