Abstract
Given the parallelism between the physical properties of Ce and Yb based magnets and heavy fermions due to the electron-hole symmetry, it has been rather odd that the transition temperature of the Yb based compounds is normally very small, as low as $\sim$ 1 K or even lower, whereas Ce counterparts may often have the transition temperature well exceeding 10 K. Here, we report our experimental discovery of the transition temperature reaching 20 K for the first time in a Yb based compound at ambient pressure. The Mn substitution at the Al site in an intermediate valence state of $\alpha$-YbAlB$_{4}$ not only induces antiferromagnetic transition at a record high temperature of 20 K but also transforms the heavy fermion liquid state in $\alpha$-YbAlB$_{4}$ into a highly resistive metallic state proximate to a Kondo insulator.
Highlights
Correlated electron systems have provided a number of nontrivial phenomena including quantum criticality, unconventional superconductivity, and exotic magnetic/electronic orders
4 f -electron systems have provided prototypical materials to study quantum criticality that appears as a result of the competition between the RKKY interaction and the Kondo effect [1,2,3,4,5,6,7,8,9,10,11]. 4 f -electron systems provide ideal platforms to investigate the effects of correlation in the presence of the strong spin-orbit coupling
Since the gap opens over EF, it naturally relates to the systematic increase of resistivity and pictures a crossover from an intermediate valence metal to a Kondo insulator as Al is substituted with Mn
Summary
Correlated electron systems have provided a number of nontrivial phenomena including quantum criticality, unconventional superconductivity, and exotic magnetic/electronic orders. The derived results, referred as experimental DOS (ExDOS), scarcely depends on the temperature for x = 0 as shown by the inset of Fig. 3(a).
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