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Two-Dimensional Impulsively Stimulated Resonant Raman Spectroscopy of Molecular Excited States

Giuseppe Fumero, Christoph Schnedermann, Giovanni Batignani, Torsten Wende, Matz Liebel, Giovanni Bassolino, Carino Ferrante, Shaul Mukamel, Philipp Kukura, T. Scopigno

2020Physical Review X32 citationsDOIOpen Access PDF

Abstract

Monitoring the interactions between electronic and vibrational degrees of freedom in molecules is critical to our understanding of their structural dynamics. This is typically hampered by the lack of spectroscopic probes able to detect different energy scales with high temporal and frequency resolution. Coherent Raman spectroscopy can combine the capabilities of multidimensional spectroscopy with structural sensitivity at ultrafast timescales. Here, we develop a three-color-based 2D impulsive stimulated Raman technique that can selectively probe vibrational mode couplings between different active sites in molecules by taking advantage of resonance Raman enhancement. Three temporally delayed pulses generate nuclear wave packets whose evolution reports on the underlying potential energy surface, which we decipher using a diagrammatic approach enabling us to assign the origin of the spectroscopic signatures. We benchmark the method by revealing vibronic couplings in the ultrafast dynamics following photoexcitation of the green fluorescent protein.

Topics & Concepts

Raman spectroscopySpectroscopyResonance Raman spectroscopyUltrashort pulsePhotoexcitationMolecular vibrationRaman scatteringExcited statePhysicsLaserAtomic physicsOpticsQuantum mechanicsSpectroscopy and Quantum Chemical StudiesSpectroscopy Techniques in Biomedical and Chemical ResearchPhotoreceptor and optogenetics research
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