近藤效应

近藤效应（Kondo effect）是指在高电导无磁金属母体中磁性杂质原子对传导电子散射几率的增大。

Kondo effect: How gold with a small amount of what were probably iron impurities behaves at low temperatures

在某一特征温度TK（所谓近藤温度）以下，稀磁合金的剩余电阻率随温度的降低而反常增大[1]。1964年，近藤淳从理论上阐明了该效应的形成机制：由于孤立磁性原子与传导电子之间存在RKKY相互作用，围绕磁性原子的传导电子的自旋将反平行极化，从而屏蔽磁性原子的磁矩，并形成一个多体单态。其他传导电子与这个多体单态之间不再有“自旋相同，空间回避”的限制，结果，磁性杂质对传导电子的散射变得更为有效，电阻率增大。

參考资料

Hewson, Alex C; Jun Kondo. . Scholarpedia: 7529. 2009 [2009-12-18]. doi:10.4249/scholarpedia.7529.

外部链接

Jun Kondo's web page
Kondo Effect - 40 Years after the Discovery - special issue of the Journal of the Physical Society of Japan
The Kondo Problem to Heavy Fermions - Monograph on the Kondo effect by A.C. Hewson (ISBN 0-521-59947-4)
Exotic Kondo Effects in Metals - Monograph on newer versions of the Kondo effect in non-magnetic contexts especially (ISBN 0-7484-0889-4)
Correlated electrons in δ-plutonium within a dynamical mean-field picture, Nature 410, 793 (2001). Nature article exploring the links of the Kondo effect and plutonium

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[1] Hewson, Alex C; Jun Kondo. . Scholarpedia: 7529. 2009 [2009-12-18]. doi:10.4249/scholarpedia.7529.