摘要
通过自洽求解Bogoliubov-de Gennes方程研究了具有非共线界面磁矩的铁磁-超导-铁磁多层结构中的自旋三重配对,发现非共线磁矩可以在界面区域引起一个自旋倒易散射。该散射能够将超导体中的自旋单重对转化为铁磁体中自旋相同的三重对。当超导两侧铁磁体的磁矩结构对称时,自旋相同的三重对可以分别在超导和铁磁区域的局域态密度中引起一个尖锐的零能电导峰。当铁磁体的磁矩反对称时,两侧铁磁体之间将会发生交错Andreev反射并形成自旋单重对,从而在局域态密度的零能电导峰中心产生一个明显的凹陷。局域态密度的这些特征可以通过实验测量微分电导谱加以验证。
The study investigates spin triplet pairing correlations in ferromagnet-superconductor-ferromagnet muhilayer structure with noncollinear interracial magnetizations, via self-consistent solution of the Bogoliubov-de Gennes equations. The result shows that noncollinear magnetic configuration leads to spin-flip scattering at the interracial regions, which can convert spin singlet pairs in the superconductor into the equal spin triplet pairs in the ferromagnets. If the magnetizations of the ferromagnetic layers on both sides of superconductor are constructed symmetrically, the equal spin triplet pairs could induce a very sharp zero energy conductance peak (ZECP) in the local density of the states (LDOS) in the superconducting region and ferromagnetic region. However, when the magnetic moments of ferromagnets have antsymmetric structures, the crossed Andreev reflection will occur between two spatially separated ferromagnetic layers so as to form the spin singlet pairs in the system. This effect could induce an obvious concavity in center of ZECP. The feature of LDOS can be demonstrated by measuring the local differential conductance spectra in experiment.
出处
《陕西理工学院学报(自然科学版)》
2015年第4期71-78,共8页
Journal of Shananxi University of Technology:Natural Science Edition
基金
国家自然科学基金资助项目(11447112)
陕西理工学院科研基金资助项目(SLGKYQD2-01)
