Unveiling the Hybridization Process in a Quantum Critical Ferromagnet by Ultrafast Optical Spectroscopy

Abstract

We report the ultrafast optical pump-probe spectroscopy measurements on the recently discovered quantum critical ferromagnet CeRh6Ge4. Our experimental results reveal the two-stage development of the hybridization between localized f moments and conduction electrons with lowering temperature, as evidenced by (1) the presence of hybridization fluctuation for temperatures from 85 K (T*) to 140 K (T), and (2) the emergence of collective hybridization below the coherence temperature, T*, marked by the opening of an indirect gap of 2 ≈12 meV. We also observe three coherent phonon modes being softened anomalously below T*, reflecting directly their coupling with the emergent coherent heavy electrons. Our findings establish the universal nature of the hybridization process in different heavy fermion systems.