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Strain-inhomogeneity effect on magnetization and low-temperature resistivity of epitaxial Fe(0 0 1) thin films

机译：应变不均匀性对Fe（0 0 1）外延薄膜的磁化和低温电阻率的影响

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The influence of incorporating nitrogen and strain-related effects on transport and magnetic properties have been studied in a series of Fe(0 0 1) thin films grown at different temperatures. A minimum in the low-temperature electrical resistivity has been observed for samples grown at intermediate temperatures. In the same low-temperature range, a decrease of the zero-field-cooled magnetization has also been measured. Since those anomalies disappear when cooling under applied magnetic field, it is inferred that they are due to the magnetically inhomogeneous nature of the system. These results suggest that local anisotropy within homogeneous regions competes with thermal fluctuations and exchange coupling between different regions, producing a randomization of the magnetic moments below a critical temperature. © 2003 Elsevier B.V. All rights reserved.

机译：在一系列在不同温度下生长的Fe（0 0 1）薄膜中，已经研究了结合氮和应变相关效应对传输和磁性的影响。对于在中间温度下生长的样品，已经观察到最低的低温电阻率。在相同的低温范围内，还测量了零场冷却的磁化强度的降低。由于这些异常在施加磁场的情况下冷却时会消失，因此可以推断，这是由于系统的磁性不均匀性造成的。这些结果表明，均匀区域内的局部各向异性会与热波动竞争，并在不同区域之间发生交换耦合，从而在临界温度以下产生磁矩的随机化。 ©2003 Elsevier B.V.保留所有权利。

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Sefrioui Z.; Menéndez José Luis; Cebollada Alfonso; Hernando A.;
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年度 2012
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Strain-inhomogeneity effect on magnetization and low-temperature resistivity of epitaxial Fe(0 0 1) thin films

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