Rlebarski Andrzej, Spałek Jozef
Institute of Physics, University of Silesia, Katowice, Poland.
Phys Rev Lett. 2005 Jul 22;95(4):046402. doi: 10.1103/PhysRevLett.95.046402. Epub 2005 Jul 21.
We observe and explain a universal scaling rhochi = const for the electrical resistivity rho with the inverse magnetic susceptibility chi(-1) for the Kondo insulator CeRhSb(1-x)Snx. In the regime where the Kondo gap disappears (x > 0.12), the system forms a non-Fermi liquid (NFL), which transforms into a Fermi liquid at higher temperature. The NFL behavior is associated with the presence of a novel quantum critical point (QCP) at the Kondo insulator-correlated metal boundary. The divergent behavior of the resistivity, the susceptibility, and the specific heat has been observed when approaching the QCP from the metallic side and is interpreted as due to the competition between the Kondo and the intersite magnetic correlations.
我们观察并解释了近藤绝缘体CeRhSb(1 - x)Snx的电阻率ρ与逆磁化率χ⁻¹之间存在的通用标度关系ρχ = 常数。在近藤能隙消失的区域(x > 0.12),该系统形成非费米液体(NFL),在更高温度下转变为费米液体。NFL行为与近藤绝缘体 - 相关金属边界处存在的新型量子临界点(QCP)有关。当从金属侧接近QCP时,观察到电阻率、磁化率和比热的发散行为,这被解释为是由于近藤相互作用和格点间磁关联之间的竞争所致。