Anomalous magneto-optical response at RuO2 / WSe2 van der Waals interface

Abstract

Ruthenium dioxide (RuO2) has been proposed as an altermagnetic candidate, although its magnetic ground state remains controversial. Here, we probe weak interfacial magnetic states at the surface of (001)-oriented RuO2 films using the magnetic proximity effect (MPE) in a van der Waals heterostructure consisting of monolayer tungsten diselenide (WSe2) atop RuO2. Temperature-dependent magneto-optical spectroscopy reveals an anomalous excitonic energy shift and a deviation from conventional Varshni behavior below 55 K that are absent in an encapsulated WSe2 control sample. The anomalous shift reverses sign upon field cooling with opposite magnetic field polarity, indicating a magnetic origin. Polarization-resolved measurements further show a nearly field-independent and fluctuating valley splitting in WSe2 / RuO2 in strong contrast to the conventional linear Zeeman splitting observed in the control bare WSe2 sample. These results suggest that the valley states are governed predominantly by interfacial exchange fields associated with weak surface magnetic states in RuO2, which do not produce a conventional linear Zeeman response within the applied magnetic field range. Importantly, this approach enables direct optical probing of emergent surface magnetism without introducing an additional ferromagnetic layer, positioning MPE-based optical probing as a tool for investigating weak surface magnetism and offering new possibilities for studying magnetic materials with controversial magnetic states.