Schwinger boson study of superconductivity mediated by antiferromagnetic spin fluctuations

E. Erlandsen, A. Sudbø
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引用次数: 3

Abstract

We study superconductivity in a normal metal, arising from effective electron-electron interactions mediated by spin-fluctuations in a neighboring antiferromagnetic insulator. Introducing a frustrating next-nearest neighbor interaction in a Neel antiferromagnet with an uncompensated interface, the superconducting critical temperature is found to be enhanced as the frustration is increased. Further, for sufficiently large next-nearest neighbor interaction, the antiferromagnet is driven into a stripe phase, which can also give rise to attractive electron-electron interactions. For the stripe phase, as previously reported for the Neel phase, the superconducting critical temperature is found to be amplified for an uncompensated interface where the normal metal conduction electrons are coupled to only one of the two sublattices of the magnet. The superconducting critical temperature arising from fluctuations in the stripe phase antiferromagnet can be further enhanced by approaching the transition back to the Neel phase.
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反铁磁自旋涨落介导超导的Schwinger玻色子研究
我们研究了正常金属中的超导性,它是由邻近反铁磁绝缘体中自旋波动介导的有效电子-电子相互作用引起的。在具有非补偿界面的尼尔反铁磁体中引入令人沮丧的次近邻相互作用,发现超导临界温度随着挫折的增加而提高。此外,对于足够大的次近邻相互作用,反铁磁体被驱动到条纹相,这也可以产生吸引的电子-电子相互作用。对于条纹相,就像之前报道的尼尔相一样,超导临界温度被发现在一个未补偿的界面上被放大,在这个界面上,正常的金属传导电子只耦合到磁铁的两个亚晶格中的一个。条纹相反铁磁体波动引起的超导临界温度可以通过接近向尼尔相的转变而进一步提高。
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