Large Exchange Bias Field in (Pt/Co)<formula formulatype='inline'>  src='/images/tex/20074.gif' alt='_{bf 3}'> </formula>/IrMn/Co Trilayers With Ultrathin IrMn Layers

Moritz J.; Vinai G.; Dieny B.

首页> 外文期刊>Magnetics Letters, IEEE >Large Exchange Bias Field in (Pt/Co) src='/images/tex/20074.gif' alt='_{bf 3}'> /IrMn/Co Trilayers With Ultrathin IrMn Layers

【24h】

Large Exchange Bias Field in (Pt/Co) src='/images/tex/20074.gif' alt='_{bf 3}'> /IrMn/Co Trilayers With Ultrathin IrMn Layers

机译：（Pt / Co） src =“ / images / tex / 20074.gif” alt =“ _ {bf 3}”> / IrMn / Co中的大交易偏差字段具有超薄IrMn层的三层

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The field shift of the hysteresis loop, called exchange bias field, in ferromagnetic/antiferromagnetic (F/AF) Co/IrMn bilayers, or (Pt/Co),,/IrMn structures, appears only above a critical thickness of IrMn, which is related to the IrMn magnetocrystalline anisotropy and to the interfacial coupling between the F and AF layers. In this letter, we show that this critical IrMn thickness can be considerably reduced by sandwiching the IrMn layer between two F layers or multilayers having parallel or orthogonal anisotropy, i.e., the first being magnetized in plane and the second out of plane. An in-plane exchange bias field of 20 mT could be measured in structures of the form (Pt/Co)₃/IrMn/Co (5 nm) having an IrMn layer as thin as 3 nm at room temperature. Several explanations are proposed and discussed. The first is associated with structural variations of texture resulting in changes in the antiferromagnet grains' anisotropy energy. The second is based on an enhancement of the stability of the antiferromagnet spin lattice resulting from an indirect intergrain coupling. The third relies on a decrease of the Co/IrMn interfacial coupling due to an out-of-plane canting of the interfacial spin.

机译：铁磁/反铁磁（F / AF）Co / IrMn双层或（Pt / Co），/ IrMn结构中的磁滞回线的场移（称为交换偏置场）仅出现在IrMn的临界厚度以上，即与IrMn磁晶各向异性以及F和AF层之间的界面耦合有关。在这封信中，我们表明，可以通过将IrMn层夹在两个具有平行或正交各向异性的F层或多层之间来显着减小该关键IrMn厚度，即，第一层在平面内磁化，第二层在平面外磁化。可以在室温下以具有3nm薄的IrMn层的（Pt / Co）_{3 / IrMn / Co（5 nm）形式的结构测量20 mT的面内交换偏置场温度。提出并讨论了几种解释。第一个与纹理的结构变化有关，导致反铁磁体晶粒的各向异性能发生变化。第二个基于间接晶粒间耦合导致反铁磁体自旋晶格稳定性的增强。第三个依赖于由于界面自旋的平面外倾斜而导致的Co / IrMn界面耦合的减少。}

著录项

来源
《Magnetics Letters, IEEE》 |2012年第1期|p.1-4|共4页
作者
Moritz J.; Vinai G.; Dieny B.;
展开▼
作者单位

Grenoble-INP, SPINTEC, UJF, Grenoble, France;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
antiferromagnetic materials; cobalt; exchange interactions (electron); ferromagnetic materials; iridium alloys; magnetic anisotropy; magnetic hysteresis; magnetic multilayers; magnetic thin films; manganese alloys; metallic thin films; nanomagnetics; nanostructured materials; platinum; texture; (Pt-Co)sub3/sub-IrMn-Co; antiferromagnet grain anisotropy energy; antiferromagnet spin lattice; ferromagnetic-antiferromagnetic bilayer; hysteresis loop; in-plane exchange bias field; indirect intergrain coupling; interfacial coupling; magnetocrystalline anisotropy; orthogonal anisotropy; out-of-plane canting; size 3 nm; temperature 293 K to 298 K; texture; trilayers; ultrathin layers; Anisotropic magnetoresistance; Couplings; Grain size; Magnetic hysteresis; Magnetic multilayers; Perpendicular magnetic anisotropy; IrMn; Nanomagnetics; crossed anisotropy; exchange bias; intergr;

机译：反铁磁材料钴;交换相互作用（电子）;铁磁材料铱合金磁各向异性磁滞磁性多层磁性薄膜锰合金金属薄膜;纳米磁性纳米结构材料;铂;质地;（Pt-Co）sub 3 / sub -IrMn-Co;反铁磁体晶粒各向异性能;反铁磁体自旋晶格;铁磁-反铁磁双层;磁滞回线面内交换偏置场;间接粒间耦合;界面耦合磁晶各向异性正交各向异性平面外倾斜;尺寸3 nm;温度293 K至298 K;质地;三层超薄层各向异性磁阻;联轴器;晶粒大小;磁滞;磁性多层;垂直磁各向异性铱纳米磁性交叉各向异性交换偏见集成;

相似文献

外文文献
中文文献
专利

1. X-Ray Absorption Spectroscopy Study of Structure and Stability of Disordered (Cu src="/images/tex/996.gif" alt="_{bf 2}"> SnS src="/images/tex/20074.gif" alt="_{bf 3}"> ) src="/images/tex/21592.gif" alt="_{bf 1-x}"> (ZnS) src="/images/tex/21531.gif" alt="_{bf x}"> Alloys [J] . Siah S.C., Jaramillo R., Chakraborty R., Photovoltaics, IEEE Journal of . 2015,第1期

机译：X射线吸收光谱法研究无序结构（Cu src =“ / images / tex / 996.gif” alt =“ _ {bf 2}”> SnS src =“ / images / tex / 20074.gif” alt =“ _ {bf 3}”> ） src =“ / images / tex /21592.gif“ alt =” _ {bf 1-x}“> （ZnS） src =” / images / tex / 21531.gif“ alt =” _ { bf x}“> 合金
2. Photoelectronic Responses in Solution-Processed Perovskite CH src="/images/tex/20448.gif" alt="_{bf 3}"> NH src="/images/tex/20074.gif" alt="_{bf 3}"> PbI src="/images/tex/20074.gif" alt="_{bf 3}"> Solar Cells Studied by Photoluminescence and Photoabsorption Spectroscopy [J] . Yamada Y., Nakamura T., Endo M., Photovoltaics, IEEE Journal of . 2015,第1期

机译：溶液加工钙钛矿CH src =“ / images / tex / 20448.gif” alt =“ _ {bf 3}”> NH < img src =“ / images / tex / 20074.gif” alt =“ _ {bf 3}”> PbI src =“ / images / tex / 20074.gif” alt =“ _ {bf 3}”> 通过光致发光和光吸收光谱研究的太阳能电池
3. Boron-Doped Silicon Surfaces From B src="/images/tex/996.gif" alt="_{bf 2}"> H src="/images/tex/29008.gif" alt="_{bf 6}"> Passivated by ALD Al src="/images/tex/996.gif" alt="_{bf 2}"> O src="/images/tex/20074.gif" alt="_{bf 3}"> for Solar Cells [J] . Mok K. R. C. Caroline, van de Loo Bas W. H., Vlooswijk Ard H. G., Photovoltaics, IEEE Journal of . 2015,第5期

机译：B 中的硼掺杂硅表面 src =“ / images / tex / 996.gif” alt =“ _ {bf 2}”> H src =“ / images / tex / 29008.gif” alt =“ _ {bf 6}”> 被ALD Al钝化的 src =“ / images / tex / 996.gif “ alt =” _ {bf 2}“> O src =” / images / tex / 20074.gif“ alt =” _ {bf 3}“> 用于太阳能电池
4. ENHANCEMENT OF EXCHANGE BIAS IN NiFe/IrM, IrMn/NiFe AND NiFe/IrMn/NiFe STRUCTURES WITH DIFFERENT THICKNESS OF ANTIFERROMAGNETIC LAYER [C] . Rodionova V., Dzhun I., Chichay K., Moscow International Symposium on Magnetism . 2015

机译：增强NiFe / IRM，IRMN / NIFE和NIFE / IRMN / NIFE结构的交换偏见，具有不同厚度的反铁磁层
5. A 265 V$_{m RMS}$ Mains Interface Integrated in 0.35 $mu$m CMOS [O] . H. Meyvaert, P. Smeets, M. Steyaert 2013

机译：A 265 V <公式甲型键=“内联”> $ _ { RM RMS} $ MAINS接口集成在0.35 <公式甲型型=“内联”> $ mu $ m cmos

Large Exchange Bias Field in (Pt/Co) src='/images/tex/20074.gif' alt='_{bf 3}'> /IrMn/Co Trilayers With Ultrathin IrMn Layers

摘要

著录项

相似文献

相关主题

期刊订阅