OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

材料工程 2010

退火对IrMn基自旋阀结构和磁性能的影响

, PP. 68-71

祁先进,王寅岗,周广宏,李子全

Keywords: 退火,织构,界面粗糙度,自旋阀,交换偏置场

Full-Text Cite this paper Add to My Lib

Abstract:

采用高真空直流磁控溅射的方法制备了结构为//Ta(5nm)/Co75Fe25(5nm)/Cu(2.5nm)/Co75Fe25(5nm)/Ir20Mn80(12nm)/Ta(8nm)的顶钉扎自旋阀多层膜,通过X射线衍射(XRD)、原子力显微镜(AFM)和振动样品磁强计(VSM)研究了退火对自旋阀的结构及磁性能的影响。结果表明退火使得IrMn(111)织构减弱,表面/界面粗糙度在低温退火后增大,而较高温度退火后减小;退火后交换偏置场和被钉扎层矫顽力减小,而自由层矫顽力增加;退火后自旋阀多层膜交换偏置场随样品在反向饱和场下停留时间的增加而不发生变化。

References

[1]	DIENY B,SPERIOSU V S,PARKIN S S P,et al.Giant magnetoresistance in soft ferromagnetic multilayer[J],Physical Review B,1991,43(1):1297-1300.
[2]	HAN D,STOKES S,LIU D,et al.Understanding of amplitude symmetry and its variation of synthetic spin valve heads for high density recording[J],Journal of Applied Physics,2003,93(10):7316-7318.
[3]	ZHENG Y K,WU Y H,LI K B,et al.High thermal stable MRAM with a synthetic ferrimagnetic pinned layer[J],IEEE Transactions on Magnetics,2004,40(4):2634-2636.
[4]	柴春林,滕蛟,于广华,等.退火对FeMn钉扎自旋阀性质的影响[J],物理学报,2002,51(8):1846-1850.
[5]	LEE J H,JEONG H D,YOON C S,et al.Interdiffusion in antiferromagnetic/ferromagnetic exchange coupled NiFe/InMn/CoFe multilayer[J],Journal of Applied Physics,2002,91(3):1431-1435.
[6]	DANTAS A L,REBOUCAS G O G,SILVA A S W T,et al.Interface roughness effects on coercivity and exchange bias[J],Journal of Applied Physics,2005,97(10):10K105-1-10K105-3.
[7]	PARK C M,MIN K I,SHIN K H.Effects of surface topology and texture on exchange anisotropy in NiFe/Cu/NiFe/FeMn spin valves[J],Journal of Applied Physics,1996,79(8):6228-6230.
[8]	CHEN K C,WU Y H,WU K M,et al.Effect of annealing temperature on exchange coupling in NiFe/FeMn and FeMn/NiFe systems[J],Journal of Applied Physics,2007,101(9):09E516-1-09E516-3.
[9]	STOBIECKI T,KANAK J,WRONA J,et al.Microstructure,texture and magnetic coupling parameters of Ir-Mn-based magnetic tunnel junction[J],Journal of Magnetism and Magnetic Materials,2007,316:e998-e1001.
[10]	SHEN J X,KIEF M T.Exchange coupling between NiO and NiFe thin films[J],Journal of Applied Physics,1996,79(8):5008-5010.
[11]	BAIBICH M N,BROTO J M,FERT A,et al.Giant magnetoresistance of(001) Fe/(001) Cr magnetic superlattices[J],Physical Review Letters,1988,61(21):2472-2475.
[12]	GUEDES A,MENDES M J,FREITAS P P,et al.Study of synthetic ferrimagnet-synthetic antiferromagnet structures for magnetic sensor application[J],Journal of Applied Physics,2006,99(8):08B703-1-08B703-3.
[13]	ZHAO H,ZHANG Z Z,MA B,et al.Pinning effect and thermal stability study in Ll0 FePt-pinned spin valves[J],Journal of Applied Physics,2007,102(2):023909-1-023909-4.
[14]	ZHOU G H,WANG Y G,QI X J,et al.Thermal stability of CoFe/Cu/CoFe/IrMn top spin valve[J],Chinese Physics Letters,2009,26(3):037501-1-037501-4.
[15]	VOPSAROIU M,GEORGIEVA M,GRUNDY P J,et al.Preparation of high moment CoFe films with controlled grain size and coercivity[J],Journal of Applied Physics,2005,97(10):10N303-1-10N303-3.
[16]	HUGHES T,LAIDLER H,and O'GRADY K.Thermal activation of magnetization reversal in spin-valve systems[J],Journal of Applied Physics,2001,89(10):5585-5591.
[17]	WANG Y G,PETFORD-LONG A K.Magnetization reversal of the ferromagnetic layer in IrMn/CoFe bilayers[J],Journal of Applied Physics,2002,92(11):6699-6707.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133