Title :
Magnetic transport mechanism in double ferromagnetic tunnel junctions with two-dimensional ferromagnetic particles
Author :
Sukegawa, Hiroaki ; Hirohata, Atsufumi ; Nakamura, Shinich ; Tezuka, Nobuki ; Sugimoto, Satoshi ; Inomata, Koichiro
Author_Institution :
Graduate Sch. of Eng., Tohoku Univ., Sendai, Japan
Abstract :
Magnetic transport properties of Co90Fe10/AlOx/Co90Fe10/AlOx/Co90Fe10 ferromagnetic double tunnel junctions have been investigated with respect to the thermal fluctuation. A middle Co90Fe10 layer is discontinuous by forming Co90Fe10 particles two-dimensionally, which shows superparamagnetic behavior above 80 K. The average diameter of the Co90Fe10 particles is estimated to be 4.8-5.0 nm from both a magnetization curve at room temperature and temperature dependence of coercivities deduced from magnetoresistance curves. This finding agrees with the maximum diameter (5.2 nm) evaluated from cross-sectional transmission electron microscope images, revealing that the dominant electron transport process heavily depends on the largest particles.
Keywords :
ferromagnetic materials; interface magnetism; magnetic tunnelling; spin polarised transport; superparamagnetism; 5.2 nm; Co90Fe10-AlO-Co90Fe10-AlO-Co90-Fe10; electron transport process; ferromagnetic particles; ferromagnetic tunnel junctions; magnetic transport properties; magnetization curve; magnetoresistance curves; superparamagnetic behavior; thermal fluctuation; transmission electron microscope images; Hybrid junctions; Iron; Magnetic field measurement; Magnetic properties; Magnetization; Materials science and technology; Temperature dependence; Thermal engineering; Transmission electron microscopy; Tunneling magnetoresistance; Co-tunneling; double tunnel junction; nano-particles; tunnel magnetoresistance;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.855292
