Ferromagnetic resonance studies of nanocrystalline La_(0.6)Pb_(0.4)O_3 thin films

D.K. Aswal; Ajay Singh; R.M. Kadam

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Ferromagnetic resonance studies of nanocrystalline La_(0.6)Pb_(0.4)O_3 thin films

机译：纳米晶La_（0.6）Pb_（0.4）O_3薄膜的铁磁共振研究

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Systematic magnetic field dependent microwave absorption measurements have been performed on nanocrystalline La_(0.6)Pb_(0.4)O_3 (LPMO) thin films over a temperature range of 77-300 K. In addition to a regular ferromagnetic resonance (FMR) signal below the Curie temperature of 230 K, we have observed a second FMR line at temperatures <=170 K, which is accompanied by a nonresonant microwave absorption signal centered at zero magnetic field. The two components of FMR lines are identified to originate from bulk and surface magnetic orderings of the LPMO nanocrystallites. The temperature dependence of the linewidth (GAMMA) revealed that the bulk of the crystallites contain chemical inhomogeneities, while the surface has a magnetic spin glass character. The hysteresis of the nonresonant absorption signal in LPMO films is found to differ from those of superconductors and, to originate due to magneto-induced microwave conductivity of surface spin glass.

机译：已经在77-300 K的温度范围内对纳米La_（0.6）Pb_（0.4）O_3（LPMO）纳米薄膜进行了与系统磁场有关的微波吸收测量。除了居里曲线以下的常规铁磁共振（FMR）信号外，在230 K的温度下，我们观察到第二条FMR线的温度<= 170 K，并伴随着以零磁场为中心的非共振微波吸收信号。 FMR线的两个组件被确定为源自LPMO纳米微晶的体磁和表面磁有序。线宽（GAMMA）的温度依赖性表明，大部分微晶具有化学不均匀性，而表面具有磁性自旋玻璃特征。发现LPMO薄膜中非共振吸收信号的磁滞不同于超导体，并且是由于磁感应的表面自旋玻璃的微波电导率引起的。

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来源
《Materials Letters》 |2005年第6期|p.728-733|共6页
作者
D.K. Aswal; Ajay Singh; R.M. Kadam;
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作者单位

Technical Physics and Prototype Engineering Division, Bhabha Atomic Research Center, Mumbai 400 085, India;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
CMR films; Pulse laser deposition; Magnetic inhomogeneities; Ferromagnetic resonance;

机译：CMR膜;脉冲激光沉积;磁不均匀性;铁磁共振;
入库时间 2022-08-17 13:20:05

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Ferromagnetic resonance studies of nanocrystalline La_(0.6)Pb_(0.4)O_3 thin films

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