Dependence of Sub-Volume Excitation on Structural and Material Parameters in Precessional Regime of Spin Transfer Torque Magnetization Reversal

Author

Ito, Kei ; Ohuchida, Satoshi ; Endoh, Tetsuo

Author_Institution

Center for Innovative Integrated Electron. Syst., Tohoku Univ., Sendai, Japan

Volume

50

Issue

11

fYear

2014

fDate

Nov. 2014

Firstpage

1

Lastpage

4

Abstract

We studied the structural and material parameter dependence of sub-volume excitation in a precessional regime of spin transfer torque (STT) magnetization reversal for CoFeB/MgO-based p-magnetic tunnel junctions (MTJs) using LLG micromagnetic simulation. The current density dependence of switching and incubation time in STT magnetization reversal can be globally scaled by the macrospin theory regardless of sub-volume excitation. The transit time has the minimum value at the minimum MTJ diameter where the sub-volume is excited. This critical diameter increases with an increase in exchange stiffness. The mechanism that sub-volume excitation is related to current density is also discussed.

Keywords

boron alloys; cobalt alloys; current density; elastic constants; interface magnetism; iron alloys; magnesium compounds; magnetic switching; magnetic thin films; magnetic tunnelling; magnetisation reversal; CoFeB-MgO; LLG micromagnetic simulation; current density dependence; exchange stiffness; incubation time; macrospin theory; material parameter dependence; p-magnetic tunnel junctions; spin transfer torque magnetization reversal; structural parameter dependence; subvolume excitation; switching; Current density; Junctions; Magnetic tunneling; Magnetization; Magnetization reversal; Switches; Torque; Magnetic tunnel junction (MTJ); magnetization dynamics; micromagnetic simulation; spin transfer torque (STT);

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2014.2323964

Filename

6971585