Theoretical description of circular dichroism in photoelectron angular distributions of randomly oriented chiral molecules after multi-photon photoionization
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TLDR
In this paper, a theoretical framework for (2+1) resonantly enhanced multi-photon ionization is presented, which combines perturbation theory for the light-matter interaction with ab initio calculations for the two-phase absorption and a single-center expansion of the photoelectron wavefunction in terms of hydrogenic continuum functions.Abstract:
Photoelectron circular dichroism refers to the forward/backward asymmetry in the photoelectron angular distribution with respect to the propagation axis of circularly polarized light. It has recently been demonstrated in femtosecond multi-photon photoionization experiments with randomly oriented camphor and fenchone molecules [C. Lux et al., Angew. Chem., Int. Ed. 51, 4755 (2012) and C. S. Lehmann et al., J. Chem. Phys. 139, 234307 (2013)]. A theoretical framework describing this process as (2+1) resonantly enhanced multi-photon ionization is constructed, which consists of two-photon photoselection from randomly oriented molecules and successive one-photon ionization of the photoselected molecules. It combines perturbation theory for the light-matter interaction with ab initio calculations for the two-photon absorption and a single-center expansion of the photoelectron wavefunction in terms of hydrogenic continuum functions. It is verified that the model correctly reproduces the basic symmetry behavior expected under exchange of handedness and light helicity. When applied to fenchone and camphor, semi-quantitative agreement with the experimental data is found, for which a sufficient d wave character of the electronically excited intermediate state is crucial.read more
Citations
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Locally and globally chiral fields for ultimate control of chiral light matter interaction
David Ayuso,Ofer Neufeld,Andres F. Ordonez,Piero Decleva,Gavriel Lerner,Oren Cohen,Misha Ivanov,Olga Smirnova +7 more
TL;DR: In this article, the authors focus on the nonlinear optical response of randomly oriented chiral molecules and show full control over intensity, polarization and propagation direction of the chiral optical response, enabling its background free detection.
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Real-time determination of enantiomeric and isomeric content using photoelectron elliptical dichroism.
Antoine Comby,Etienne Bloch,C. M. M. Bond,Dominique Descamps,Jordan Miles,Stéphane Petit,S. Rozen,Jason B. Greenwood,Valérie Blanchet,Yann Mairesse +9 more
TL;DR: Real-time analysis of samples is performed by ionizing them with elliptically polarized femtosecond laser pulses and detecting the angular distributions of the photoelectrons, able to distinguish isomers, which cannot be easily distinguished by mass-spectrometry.
Journal ArticleDOI
Photoelectron Circular Dichroism with Two Overlapping Laser Pulses of Carrier Frequencies ω and 2 ω Linearly Polarized in Two Mutually Orthogonal Directions
TL;DR: A strong forward-backward asymmetry in the emission of photoelectrons from randomly oriented samples, which has an opposite sign in the upper and lower hemispheres is predicted.
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Ultrasensitive Chiral Spectroscopy by Dynamical Symmetry Breaking in High Harmonic Generation
TL;DR: In this paper, a new proposal for characterizing chirality could lead to highly sensitive and extremely accurate ultrafast detection of chiral phenomena even in systems that are only weakly chiral.
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Controlled Enantioselective Orientation of Chiral Molecules with an Optical Centrifuge.
Alexander A. Milner,Jordan A. M. Fordyce,Ian MacPhail-Bartley,W. Wasserman,Valery Milner,Ilia Tutunnikov,Ilya Sh. Averbukh +6 more
TL;DR: Using Coulomb explosion imaging, it is shown that the centrifuged molecules acquire preferential orientation perpendicular to the plane of rotation, and that the direction of this orientation depends on the relative handedness of the enantiomer and the rotating centrifuge field.
References
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