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通过超快磁光学观察的(Pr,Ca)MnO3薄膜中的纳米磁性簇的动力学

Dynamics of nanoscopic magnetic clusters in (Pr,Ca)MnO3 thin films observed by ultrafast magnetooptics
课程网址: http://videolectures.net/slonano07_mertelj_dnm/  
主讲教师: Tomaž Mertelj
开课单位: 约瑟夫·斯特凡学院
开课时间: 2008-02-12
课程语种: 英语
中文简介:
利用超快时间分辨磁学方法,研究了(Pr0.6Ca0.4)MnO3薄膜在LaAlO3和SrTiO3基体上的相分离态,研究了在1.1t的磁场中,薄膜的光致克尔旋转和椭圆度与磁场的关系。通过与静态克尔旋转和椭圆度的比较,得出低温下样品中存在两种不同的磁相。根据小角度中子散射结果[1]发现,其中一个相源于纳米铁磁金属团簇。光诱导克尔信号的时间依赖性表明,在光激发下,这些相的体积分数在几十皮秒的时间尺度上发生变化。
课程简介: Phase separated state of thin films of (Pr0.6Ca0.4)MnO3 on LaAlO3 and SrTiO3 substrates was investigated by means of the ultrafast time-resolved magnetooptics in the magnetic field up to 1.1 T. The photoinduced Kerr rotation and ellipticity show remarkably different magnetic-field dependence. From comparison with the static Kerr rotation and ellipticity we conclude that two different magnetic phases are present in the samples at low temperatures. According to small angle neutron scattering results [1] one of the phases originates from nanoscopic ferromagnetic metallic clusters. Temporal dependence of the photoinduced Kerr signals indicates that upon photoexcitation changes of the volume fraction of these phases take place on a timescale of a few tens of picoseconds.
关 键 词: 磁光学; 动力学; 纳米磁性簇
课程来源: 视频讲座网
最后编审: 2019-11-16:cwx
阅读次数: 37

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