Relation between c-f hybridization and magnetic ordering in CeRu2Al10: An optical conductivity study of Ce(Ru1-xRhx)2Al10 (x≤0.05)

Abstract

A Kondo semiconductor CeRu2Al10 with an orthorhombic crystal structure shows an unusual antiferromagnetic ordering at rather high temperature T0 of 27.3 K, which is lower than the Kondo temperature T K 60 K. In optical conductivity [σ(ω)] spectra that directly reflect electronic structure, the c-f hybridization gap between the conduction and 4f states is observed at around 40 meV along the three principal axes. However, an additional peak at around 20 meV appears only along the b axis. With increasing x to 0.05 in Ce(Ru1-xRhx)2Al10, the T0 decreases slightly from 27.3 K to 24 K, but the direction of the magnetic moment changes from the c axis to the a axis. Thereby, the c-f hybridization gap in the σ(ω) spectra is strongly suppressed, but the intensity of the 20-meV peak remains as strong as for x=0. These results suggest that the change of the magnetic moment direction originates from the decreasing of the c-f hybridization intensity. The magnetic ordering temperature T0 is not directly related to the c-f hybridization but is related to the charge excitation at 20 meV observed along the b axis.