Two-dimensional UV femtosecond stimulated Raman spectroscopy for molecular polaritons: dark states and beyond

Abstract

We have developed a femtosecond ultra-voilet (UV) stimulated Raman spectroscopy (UV-FSRS) for N molecules in optical cavities. The scheme enables a real-time monitoring of collective dynamics of molecular polaritons and their coupling to vibrations, along with a crosstalk between polariton and dark states. Through multidimensional projections of the UV-FSRS signal, we identify clear signature of the dark states, e.g., pathways and timescales that used to be invisible in resonant technique. A microscopic theory is developed for the UV-FSRS, so as to reveal the polaritonic population and coherence dynamics that interplay with each other. The resulting signal makes the dark states visible, thereby providing a new technique for probing dark state dynamics and their correlation with polariton modes.