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High-resolution resonance-enhanced multiphoton photoelectron circular dichroism

Alexander Kastner, Greta Koumarianou, Pavle Glodic, Peter C. Samartzis, Nicolas Ladda, Simon T. Ranecky, Tom Ring, Sudheendran Vasudevan, Constantin Witte, Hendrike Braun, Han-Gyeol Lee, Arne Senftleben, Robert Berger, G. Barratt Park, Tim Schäfer, Thomas Baumert

2020Physical Chemistry Chemical Physics33 citationsDOIOpen Access PDF

Abstract

Photoelectron circular dichroism (PECD) is a highly sensitive enantiospecific spectroscopy for studying chiral molecules in the gas phase using either single-photon ionization or multiphoton ionization. In the short pulse limit investigated with femtosecond lasers, resonance-enhanced multiphoton ionization (REMPI) is rather instantaneous and typically occurs simultaneously via more than one vibrational or electronic intermediate state due to limited frequency resolution. In contrast, vibrational resolution in the REMPI spectrum can be achieved using nanosecond lasers. In this work, we follow the high-resolution approach using a tunable narrow-band nanosecond laser to measure REMPI-PECD through distinct vibrational levels in the intermediate 3s and 3p Rydberg states of fenchone. We observe the PECD to be essentially independent of the vibrational level. This behaviour of the chiral sensitivity may pave the way for enantiomer specific molecular identification in multi-component mixtures: one can specifically excite a sharp, vibrationally resolved transition of a distinct molecule to distinguish different chiral species in mixtures.

Topics & Concepts

FemtosecondNanosecondIonizationCircular dichroismRydberg formulaChemistryVibrational circular dichroismMoleculeSpectroscopyRydberg stateAtomic physicsMolecular physicsPhotoionizationDichroismLaserAbove threshold ionizationEnantiomerResolution (logic)Materials scienceFemtochemistryPhotoemission spectroscopyMolecular vibrationHot bandX-ray photoelectron spectroscopyResonance-enhanced multiphoton ionizationMolecular electronic transitionIntermediate statePhotoexcitationIonization energyLaser-Matter Interactions and ApplicationsNonlinear Optical Materials StudiesSpectroscopy and Quantum Chemical Studies
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