Advanced Dual-Free-Layer Cpp Gmr Sensors For High-Density Magnetic Recording

All-metal current-perpendicular-to-plane (CPP) giant magnetoresistance (GMR) read sensors with a shield-to-shield spacing (S2S) of 16-21 nm and a narrow track width of down to 25 nm were fabricated using ferromagnetic CoFeMnSi Heusler-alloy-based spin valves. Room temperature GMR ratios from these read sensors are obtained of up to 6% and 14-24% (Delta RA = 7.1-12.0 m Omega mu m(2)) at S2S = 16 and 21 nm, respectively. Studies and results of electron transport and CPP GMR support the sustainability and scalability of the CPP GMR process for Tb/in(2) the areal density of magnetic recording. A universal parameter defined as magnetic resistivity for a sensor device, Delta RA/S2S in ohm micrometers, is proposed to gauge the practically and rationally applicable CPP GMR for the read sensor process. The investigation of the CPP GMR operation range and micromagnetic simulation demonstrates the feasibility of the CPP GMR read sensors at S2S = 21 nm for sustaining 1.0 Tb/in(2) and of those at S2S = 16 nm for marginally supporting 2.0 Tb/in(2) the areal density of magnetic recording, The future path to and potential of the technology for ever increasing areal density beyond 2.0 Tb/in(2) are addressed with emphasis on the importance of further enhancing the CPP GMR for process margin improvement.