1) exchange coupling field(Hex)
交换偏置场Hex
2) Exchange bias field
交换偏置场
1.
Effect of texture and interfacial roughness on the exchange bias field of NiFe/FeMn films;
织构和界面粗糙度对NiFe/FeMn双层膜交换偏置场的影响
2.
With the increase of the thickness of the FeMnC film,the exchange bias field,the coercive force and the remnant magnetism decreased.
我们用磁控溅射方法制备了FeMn/FeMnC/Co薄膜,研究了FeMn-FeMnC-Co体系的交换偏置现象,并探讨了铁磁薄膜FeMn/Co的交换偏置场相对于插入层FeMnC厚度的变化,发现随插入层FeMnC厚度的增加,交换偏置场Heb、矫顽力及剩磁比均减小。
3.
By adjusting the Mn concentration,we systematically investigated the magnetic properties,especially the exchange bias field( H ex ),in Ni 81 Fe 19 /Ni 100- x Mn x bilayers.
通过调整Mn的成分 ,系统地研究了Ni81 Fe1 9 Ni1 0 0 -xMnx 双层膜的磁学性质 ,特别是交换偏置场 (Hex)的变化 。
3) exchange bias
交换偏置场
1.
Thermal stability of exchange bias indicates that (Ni_ 0.
实验表明,Cr成分的不同会引起NiFe/PtMn双层膜中PtMn层晶粒尺寸的不同,使NiFe/PtMn双层膜的交换偏置场与PtMn层厚度之间呈现不同的变化关系。
2.
By adjusting the Cr concentration, the effect of texture and grain size on the exchange bias of NiFe/PtMn bilayers with (Ni_ 0.
对退火270℃,5h后的NiFe/PtMn双层膜磁性的研究表明,PtMn织构强弱对交换偏置场的影响不明显,而PtMn的晶粒尺寸是影响交换偏置场的主要因素,PtMn颗粒的相干长度在11·3nm左右时得到了较大的交换偏置场。
3.
It was found in experiment that the positive exchange bias will occur at large cooling field, and this interesting phenomenon provides an important clue to understand the mechanism of the exchange bias.
交换偏置场效应发现于50多年前,是当今硬盘磁头和磁随机存储器基本构件的物理基础之一,其产生机制一直是人们的研究热点。
4) Exchange bias
交换偏置
1.
The influence of interfacial FeMn addition on the CoFe/CrPt exchange biased system;
界面掺杂FeMn对CoFe/CrPt交换偏置体系的影响
2.
The exchange bias in ferromagnetic/antiferro-magnetic bilayers under the stress field;
外应力场下铁磁/反铁磁双层膜系统中的交换偏置
3.
The influence of (Ni_(0.81)Fe_(0.19))_(1-x)Cr_x seed layer on the exchange bias of NiFe/FeMn bilayers;
(Ni_(0.81)Fe_(0.19))_(1-x)Cr_x作为种子层对NiFe/FeMn交换偏置的影响
5) exchange biasing
交换偏置
1.
Effect of magnetization on exchange biasing in Co-Ni/FeMn bilayers;
Co-Ni/FeMn双层膜中磁化强度对交换偏置的影响
2.
Perpendicular and longitudinal exchange biasing inferromagnet/antiferromagnet multilayers;
铁磁/反铁磁多层膜中纵向和垂直交换偏置
3.
Exchange biasing and coercive field of molecular\|beam\|epitaxy\|grown Fe/Fe\-\{50\}Mn\-\{50\} bilayers have been investigated by Surface Magneto\|optical Kerr Effect(SMOKE) and ferromagnetic resonance measurements.
利用表面磁光克尔效应和铁磁共振对分子束外延生长的Fe/Fe50 Mn50 双层膜的交换偏置场和矫顽力进行了研究 ,实验结果表明 ,当反铁磁层厚度小于 5 5nm时 ,不出现交换偏置 ,而当大于这一厚度时 ,出现交换偏置 ;大约在7nm时 ,达到极大值 。
6) exchange bias and coercivity
交换偏置和矫顽场
1.
The exchange bias and coercivity of FM/AFM bilayers and FM/AFM mixed monolayers with nonmagnetic dilution are studied in a Monte Carlo model.
在相同掺杂浓度下,对随机掺杂和规则掺杂两种不同掺杂方式的结果比较发现:铁磁/反铁磁双层膜中,规则掺杂下产生的交换偏置和矫顽场都得到了增强;对于单层混合膜,随机掺杂下的交换偏置更强,规则掺杂下的矫顽场更大。
补充资料:Hex-1-ene
分子式:C6H12
分子量:84.16
CAS号:592-41-6
性质:密度0.678。熔点-140°C。沸点62-65°C。折射率1.3867-1.3887。闪点-26°C。水溶性0.005 g/100 mL。
分子量:84.16
CAS号:592-41-6
性质:密度0.678。熔点-140°C。沸点62-65°C。折射率1.3867-1.3887。闪点-26°C。水溶性0.005 g/100 mL。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条