%0 Journal Article %T 铁磁条和肖特基金属条调制下的电子自旋极化输运
Spin Polarizaion in Magnetic Nanostructure Modulated by Ferromagnetic and Schottky Metal Stripes %A 朱家豪 %A 赵飞翔 %A 陈宏 %J Advances in Condensed Matter Physics %P 23-28 %@ 2326-3520 %D 2016 %I Hans Publishing %R 10.12677/CMP.2016.52004 %X
利用转移矩阵方法,理论上研究了电子在铁磁条和肖特基金属条共同调制下的磁纳米结构中的输运性质。结果发现电子的输运特性不仅与铁磁条的长度,肖特基金属条的位置,还与肖特基金属条上所加的偏压有较大的关系。增加铁磁条的长度和肖特基金属条与铁磁条的距离会减小电子自旋极化度曲线的震荡周期和加大部分能量区域的自旋极化度。通过调节这些参数达到较为合适的值,可以获得较大的自旋极化效应,这些特性可以有助于制造新型电子自旋过滤器。
With the transfer matrix method, the transport properties of the electron through the 2DEQ modulated by ferromagnetic and Schottky metal stripes have been investigated. The result shows that the transport properties not only depend on the length of the ferromagnetic metal stripes and the position of Schotty mental strips, but also the bias voltage of Schottky metal stripes. The increase of the length of ferromagnetic mental strips and the distance between ferromagnetic mental strips and Schottky metal stripe will decrease the oscillation period of the spin polarized curve and increase the spin polarization in some energy plateau. And big spin-polarized effect can be attained through adjusting these parameters. These properties may contribute to making new tunable spin filter.
%K 磁纳米结构,电子输运,自旋极化,肖特基金属条
Magnetic Nanostructure %K Electron Transport %K Spin Polarization %K Schottky Metal Stripe %U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=17640