从电磁方程的解析解出发,分析高对称性van der Pauw disk装置的异常磁电阻效应,重点研究该体系的几何非均匀性与物理非均匀性对整体磁电阻效应的影响.通过定义三个非均匀参数表征体系的非均匀性,给出该装置中电磁输运性质随非均匀系数...从电磁方程的解析解出发,分析高对称性van der Pauw disk装置的异常磁电阻效应,重点研究该体系的几何非均匀性与物理非均匀性对整体磁电阻效应的影响.通过定义三个非均匀参数表征体系的非均匀性,给出该装置中电磁输运性质随非均匀系数的变化.计算结果表明,体系的磁电阻比值在一定的几何非均匀结构下达到最优化,整个装置在磁场下呈现出良好的开关效应.同时,材料在迁移率和电阻率上的非均匀性对异常磁电阻效应产生明显影响.特别地,组分电阻率的差别导致异常磁电阻效应出现符号翻转.展开更多
We report systematic in-plane magnetoresistance measurements on the electron-doped cuprate La2-x,.CexCuO4±δ thin films as a function of Ce doping and oxygen content in the magnetic field up to 14 T. A crossover ...We report systematic in-plane magnetoresistance measurements on the electron-doped cuprate La2-x,.CexCuO4±δ thin films as a function of Ce doping and oxygen content in the magnetic field up to 14 T. A crossover from negative to positive magnetoresistance occurs between the doping level x = 0.07 and 0.08. Above x = 0.08, the positive magnetoresistance effect appears, and is almost indiscernible at x = 0.15. By tuning the oxygen content, the as-grown samples show negative magnetoresistance effect, whereas the optimally annealed ones display positive magnetoresistance effect at the doping level x = 0.15. Intriguingly, a linear-field dependence of in-plane magnetoresistanee is observed at the underdoping level x = 0.06, the optimal doping level x = 0. i and slightly overdoping level x = 0.11. These anomalies of in-plane magnetoresistance may be related to the intrinsic inhomogeneity in the cuprates, which is discussed in the framework of network model.展开更多
文摘从电磁方程的解析解出发,分析高对称性van der Pauw disk装置的异常磁电阻效应,重点研究该体系的几何非均匀性与物理非均匀性对整体磁电阻效应的影响.通过定义三个非均匀参数表征体系的非均匀性,给出该装置中电磁输运性质随非均匀系数的变化.计算结果表明,体系的磁电阻比值在一定的几何非均匀结构下达到最优化,整个装置在磁场下呈现出良好的开关效应.同时,材料在迁移率和电阻率上的非均匀性对异常磁电阻效应产生明显影响.特别地,组分电阻率的差别导致异常磁电阻效应出现符号翻转.
基金supported by the National Key Basic Research Program of China (Grant Nos. 2015CB921000, and 2016YFA0300301)the National Natural Science Foundation of China (Grant Nos. 11674374, and 11474338)the Key Research Program of Frontier Sciences, Chinese Academy of Sciences (Grant No. QYZDB-SSW-SLH008)
文摘We report systematic in-plane magnetoresistance measurements on the electron-doped cuprate La2-x,.CexCuO4±δ thin films as a function of Ce doping and oxygen content in the magnetic field up to 14 T. A crossover from negative to positive magnetoresistance occurs between the doping level x = 0.07 and 0.08. Above x = 0.08, the positive magnetoresistance effect appears, and is almost indiscernible at x = 0.15. By tuning the oxygen content, the as-grown samples show negative magnetoresistance effect, whereas the optimally annealed ones display positive magnetoresistance effect at the doping level x = 0.15. Intriguingly, a linear-field dependence of in-plane magnetoresistanee is observed at the underdoping level x = 0.06, the optimal doping level x = 0. i and slightly overdoping level x = 0.11. These anomalies of in-plane magnetoresistance may be related to the intrinsic inhomogeneity in the cuprates, which is discussed in the framework of network model.
