Litcius/Paper detail

Pump-probe spectroscopy of chiral vibrational dynamics

Denis S. Tikhonov, Alexander Blech, M. Leibscher, Loren Greenman, Melanie Schnell, Christiane P. Koch

2022Science Advances24 citationsDOIOpen Access PDF

Abstract

A planar molecule may become chiral upon excitation of an out-of-plane vibration, changing its handedness during half a vibrational period. When exciting such a vibration in an ensemble of randomly oriented molecules with an infrared laser, half of the molecules will undergo the vibration phase-shifted by π compared to the other half, and no net chiral signal is observed. This symmetry can be broken by exciting the vibrational motion with a Raman transition in the presence of a static electric field. Subsequent ionization of the vibrating molecules by an extreme ultraviolet pulse probes the time-dependent net handedness via the photoelectron circular dichroism. Our proposal for pump-probe spectroscopy of molecular chirality, based on quantum-chemical theory and discussed for the example of the carbonyl chlorofluoride molecule, is feasible with current experimental technology.

Topics & Concepts

ExcitationIonizationMoleculeVibrational circular dichroismRaman spectroscopyInfraredMolecular physicsChirality (physics)SpectroscopyMolecular vibrationVibrationTwo-dimensional infrared spectroscopyAtomic physicsChemical physicsChemistryMaterials scienceCircular dichroismPhysicsOpticsSymmetry breakingChiral symmetry breakingCrystallographyIonNambu–Jona-Lasinio modelQuantum mechanicsOrganic chemistrySpectroscopy and Quantum Chemical StudiesMolecular spectroscopy and chiralityAdvanced Chemical Physics Studies
Pump-probe spectroscopy of chiral vibrational dynamics | Litcius