Dr. Stefan Agrestini from MPI CPfS Dresden

Quan

Informació de contacte

Nom de contacte

Inma Hernández

Correu electrònic

ihernandez@cells.es

Abstract

Spin-orbit coupling active transition metal compounds, such as iridates and RuCl3, have received tremendous attention due to the high expectations of finding new exotic phenomena and the long-sought materialization of the Kitaev model. Prerequisite for these expectations is that the non-cubic crystal field splitting is small compared to the spin-orbit coupling (SOC) and, hence, does not perturb in a significant way the description of the electronic ground state in terms of the J_eff = 1/2 state. These “electronically cubic conditions” are much more stringent in RuCl3 than in iridates, since the SOC of Ru (~150 meV) is three times smaller than for Ir. In this context, contradictory reports are available in literature. 

In this talk I present a study of the local Ru 4d electronic structure of RuCl3 by means of polarization dependent x-ray absorption spectroscopy at the Ru-L2,3 edges. The observed linear dichroism is vanishingly small indicating that electronically the Ru 4d local symmetry is highly cubic. Consistent with our magnetic circular dichroism measurements, the ratio of the orbital and spin moments is found to be 2.0, the value expected for a J_eff = 1/2 ground state. The data thus show that as far as the Ru 4d local properties are concerned, RuCl3 is an ideal candidate for the realization of the Kitaev physics.