Tracking the bond stretching of chiral molecules using photoelectron circular dichroism
ORAL
Abstract
In this talk, we propose a bond-length--sensitive probe of the chiral character of a dissociating chiral molecule prepared by a pump pulse.
Using an XUV pulse, the valence electron of the prototypical CHFClBr is ionized by left- or
right-circularly polarized light.
The photoelectron circular dichroism (PECD), the asymmetry between the two
polarizations, is used to illustrate the chiral character of the state as the
bond length changes.
With the data of the PECD at different bond lengths, one can map the pump-probe delays to bond distances.
The XUV pulses can also be shaped using quantum optimal control theory to
maximize the signal at different bond lengths.
The ionization dynamics is described by a trio of quantum chemistry, scattering theory, and the time-dependent perturbation theory.
Using an XUV pulse, the valence electron of the prototypical CHFClBr is ionized by left- or
right-circularly polarized light.
The photoelectron circular dichroism (PECD), the asymmetry between the two
polarizations, is used to illustrate the chiral character of the state as the
bond length changes.
With the data of the PECD at different bond lengths, one can map the pump-probe delays to bond distances.
The XUV pulses can also be shaped using quantum optimal control theory to
maximize the signal at different bond lengths.
The ionization dynamics is described by a trio of quantum chemistry, scattering theory, and the time-dependent perturbation theory.
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Presenters
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Chi-Hong Isaac Yuen
Kansas State University
Authors
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Chi-Hong Isaac Yuen
Kansas State University
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Esteban Goetz
Drake University
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Julian Suarez
Kansas State University
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Christiane Koch
Freie Universität Berlin
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Loren Greenman
Kansas State University