Charge-Ordered Antiferromagnetic to Ferromagnetic Phase Transition in Cr-Doped Nd0.5Ca0.5Mn1?x Cr x O3: EMR and Magnetization Study

A. Sharma; S. V. Bhat

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Charge-Ordered Antiferromagnetic to Ferromagnetic Phase Transition in Cr-Doped Nd0.5Ca0.5Mn1?x Cr x O3: EMR and Magnetization Study

机译：Cr掺杂Nd0.5 Ca0.5 Mn1？x Cr x O3 中的电荷有序反铁磁至铁磁相变：EMR和磁化研究

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The Cr-doped rare-earth manganites Nd0.5Ca0.5Mn1?x Cr x O3 (x = 0.03, 0.05, 0.10) are studied by electron magnetic resonance (EMR) and magnetization measurements in the paramagnetic as well as in the ferromagnetic phase. The magnetization measurements show that the charge-ordered antiferromagnetic phase decreases at the expense of ferromagnetic metallic phase and for Cr doping of x = 0.1, the charge-ordered phase melts completely. The EMR shows multiple signals for all three compositions in the ferromagnetic phase indicative of an anisotropic ferromagnetic phase. The difference between the shift of the high-field and low-field signals decreases with Cr doping, indicating that the magnetic anisotropy decreases with the Cr doping. In the paramagnetic phase the EMR line width follows Causa's model as observed in other colossal magnetoresistant manganites.

机译：Cr掺杂的稀土锰矿Nd0.5 Ca0.5 Mn1？x Cr x O3 （x = 0.03，0.05，0.10）为通过电子磁共振（EMR）和顺磁性以及铁磁性相中的磁化强度测量进行了研究。磁化测量表明，以铁磁性金属相为代价，电荷排序的反铁磁性相减少，并且对于x = 0.1的Cr掺杂，电荷排序的相完全熔化。 EMR在铁磁相中显示所有三种成分的多个信号，表示各向异性铁磁相。高场和低场信号的位移之间的差随着Cr掺杂而减小，表明磁各向异性随Cr掺杂而减小。在顺磁相中，EMR线宽遵循Causa模型，正如在其他巨大的耐磁锰矿中观察到的那样。

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《Applied Magnetic Resonance》 |2008年第2期|11-17|共7页
作者
A. Sharma; S. V. Bhat;
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Department of Physics Indian Institute of Science Bangalore India;

Department of Physics Indian Institute of Science Bangalore India;

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Charge-Ordered Antiferromagnetic to Ferromagnetic Phase Transition in Cr-Doped Nd0.5Ca0.5Mn1?x Cr x O3: EMR and Magnetization Study

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