Title :
Multilevel Transitions of Closely Arranged Spin Valve Pillars Using Spin Transfer Switching
Author :
Funabashi, Nobuhiko ; Machida, Kenji ; Aoshima, Ken-ichi ; Miyamoto, Yasuyoshi ; Kawamura, Norikazu ; Kuga, Kiyoshi ; Shimidzu, Naoki
Author_Institution :
Sci. & Tech. Res. Labs., Japan Broadcasting Corp., Tokyo
Abstract :
Two closely arranged spin valve pillars sharing a pair of top and bottom electrodes were fabricated and their spin transfer switching (STS) characteristics were investigated. Each pillar was a 300 times 100 nm rectangle, such that the distance d between two pillars was varied up to 1 mum . The STS curves of a single pillar and closely arranged pillars with the distance d of 1 mum showed single-step transitions, but the STS curves of closely arranged pillars with the distance d of 0.3 mum showed clear two-step transitions. We found that the plateau width of the intermediate resistive state of the two-step transitions can be controlled by the distance >d . The basis for this stable intermediate resistive state seemed to be magnetic interactions and the intrinsic switching mode of STS.
Keywords :
electrodes; magnetic switching; magnetic transitions; magnetisation; spin valves; distance 0.3 mum; distance 1 mum; electrodes; intermediate resistive state; intrinsic switching mode; magnetic interactions; multilevel magnetization states; multilevel transitions; plateau width; single-step transition; spin transfer switching; spin valve pillars; Magnetooptical Kerr effect; spin transfer switching; spin valve;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2008.2002520
