Lattice dynamics, crystal-field excitations and quadrupolar fluctuations of YbRu2Ge2

Abstract

We report Raman-scattering results of YbRu2Ge2 single crystals to explore the phononic and crystal-field (CF) excitations. This heavy-fermion metal is suggested to enter a ferroquadrupolar (FQ) phase below T0=10 K. The tetragonal CF potential splits the Yb3+ 2F7/2 ground multiplet into two 6 and two 7 Kramers doublets. We establish the following CF level scheme of the ground multiplet: a 6 ground state, with the two 7 states at 2 cm-1, 95 cm-1 and the other 6 state at 239 cm-1. The 2 cm-1 separation between the CF ground and first excited states is in agreement with the previously proposed quasi-quartet CF ground state. The intensity of the lowest-energy CF transition remarkably increases on cooling, indicating a coupling of this CF excitation to the quadrupolar fluctuations above T0. From symmetry analysis, we suggest that the FQ order has B1g symmetry. Moreover, temperature-dependent study of four Raman-active phonon modes shows that the intensities of the A1g and one Eg modes increase significantly on cooling, which is explained by a near-resonant coupling between these two phonon modes and CF transitions.