A-site disorder effects in electron-doped manganite La_(0.4)Ca_(0.6)MnO_3

N. Hu; C.L. Lu; K.F. Wang; L. Cheng; Y. Liu; J.-M. Liu; R. Xiong; J. Shi

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A-site disorder effects in electron-doped manganite La_(0.4)Ca_(0.6)MnO_3

机译：电子掺杂锰La_（0.4）Ca_（0.6）MnO_3中的A位无序效应

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The A-site disorder effects on the stability of charge-ordered state in electron-doped manganite R_(0.4)A_(0.6)-MnO_3 (where R = La, Pr, Nd, Sm, and A = Ca, Sr, Ba) are investigated by detailed measurements of transport, magnetism, and specific heat. The robust charge-ordered phase within the prototype sample can be successively suppressed by enhancing the A-site disorder, and finally an atomic-scale spin-glass state is evidenced in the highest disordered sample. However, no ferromagnetic phase can be observed; even the long-range charge-ordered antiferromagnetic phase is fully suppressed, which can be associated with the insufficient e_g electron density in such an electron-doped manganite. This revealing is helpful for understanding the origin of ferromagnetic phase in nano-sized or B-site doped charge-ordered manganites with small e_g electron density.

机译：电子掺杂锰矿R_（0.4）A_（0.6）-MnO_3（其中R = La，Pr，Nd，Sm和A = Ca，Sr，Ba）中的A位无序对电荷有序态稳定性的影响通过对传输，磁性和比热的详细测量来研究。可以通过增强A-位无序性来连续抑制原型样品中的强电荷有序相，最后在最高无序样品中证明了原子级自旋玻璃态。但是，没有观察到铁磁相。即使远距离电荷排序的反铁磁相也被完全抑制，这可能与这种掺杂电子的锰矿中e_g电子密度不足有关。这一发现有助于理解电子密度较小的纳米级或B位掺杂的电荷有序锰矿中铁磁相的起源。

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《Applied Physics》 |2011年第2期|p.485-491|共7页
作者
N. Hu; C.L. Lu; K.F. Wang; L. Cheng; Y. Liu; J.-M. Liu; R. Xiong; J. Shi;
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Department of Physics, Wuhan University, Wuhan 430072, China,School of Science, Hubei University of Technology, Wuhan 430068, China;

Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, China;

Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, China;

Department of Physics, Wuhan University, Wuhan 430072, China;

Department of Physics, Wuhan University, Wuhan 430072, China;

Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210093, China,International Center for Materials Physics, Chinese Academy of Science, Shenyang, China;

Department of Physics, Wuhan University, Wuhan 430072, China;

Department of Physics, Wuhan University, Wuhan 430072, China,International Center for Materials Physics, Chinese Academy of Science, Shenyang, China;

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1. Prediction of magnetocaloric effect using a phenomenological model in (x) La_(0.6)Ca_(0.4)MnO_3/(1-x) La_(0.6)Sr_(0.4)MnO_3 composites [J] . Gharsallah H., Jeddi M., Bejar M., Applied Physics . 2019,第8期

机译：（x）La_（0.6）Ca_（0.4）MnO_3 /（1-x）La_（0.6）Sr_（0.4）MnO_3复合材料的现象学模型预测磁热效应
2. Prediction of magnetocaloric effect using a phenomenological model in (x) La_(0.6)Ca_(0.4)MnO_3/(1-x) La_(0.6)Sr_(0.4)MnO_3 composites [J] . Gharsallah H., Jeddi M., Bejar M., Applied Physics . 2019,第8期

机译：使用（X）La_（0.6）Ca_（0.4）MnO_3 /（1-x）La_（0.6）Sr_（0.4）MnO_3复合材料的现象学模型预测磁热效应
3. A-site disorder effects in electron-doped manganite La_0.4Ca_0.6MnO₃ [J] . N. Hu, C. L. Lu, K. F. Wang, Applied Physics A: Materials Science & Processing . 2011,第2期

机译：电子掺杂锰La _{0.4 Ca _{0.6 MnO _{3 的A位无序效应}}}
4. Field Dependence of the Refrigerant Capacity for La_(0.6)Ca_(0.4)MnO_3 Manganite [C] . R.Szymczak, A.Kolano-Burian, R.Kolano, EMRS meeting . 2009

机译：La_（0.6）Ca_（0.4）MnO_3锰的制冷剂容量的田间依赖性
5. High magnetic field phase diagram in electron-doped manganites La0.4Ca0.6Mn1−yCryO3 [O] . Chengliang Lu, Ni Hu, Ming Yang, -1

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6. Disorder effects at low temperatures in La_{0.7-x}Y_{x}Ca_{0.3}MnO_{3} manganites [O] . Gusmao, M. A., Ghivelder, L., Freitas, R. S., 2003

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A-site disorder effects in electron-doped manganite La_(0.4)Ca_(0.6)MnO_3

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