Tabletop imaging of structural evolutions in chemical reactions

The introduction of femto-chemistry has made it a primary goal to follow the nuclear and electronic evolution of a molecule in time and space as it undergoes a chemical reaction. Using Coulomb Explosion Imaging we have shot the first high-resolution molecular movie of a to and fro isomerization proc...

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Bibliographic Details
Published in:arXiv.org 2014-02
Main Authors: Ibrahim, Heide, Wales, Benji, Beaulieu, Samuel, Schmidt, Bruno E, Thiré, Nicolas, Bisson, Éric, Hebeisen, Christoph T, Wanie, Vincent, Giguére, Mathieu, Kieffer, Jean-Claude, Sanderson, Joseph, Schuurman, Michael S, Légaré, François
Format: Article
Language:English
Subjects:
Acetylene
Chemical reactions
Free electron lasers
Ionization
Isomerization
Migration
Organic chemistry
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Summary:The introduction of femto-chemistry has made it a primary goal to follow the nuclear and electronic evolution of a molecule in time and space as it undergoes a chemical reaction. Using Coulomb Explosion Imaging we have shot the first high-resolution molecular movie of a to and fro isomerization process in the acetylene cation. So far, this kind of phenomenon could only be observed using VUV light from a Free Electron Laser [Phys. Rev. Lett. 105, 263002 (2010)]. Here we show that 266 nm ultrashort laser pulses are capable of initiating rich dynamics through multiphoton ionization. With our generally applicable tabletop approach that can be used for other small organic molecules, we have investigated two basic chemical reactions simultaneously: proton migration and C=C bond-breaking, triggered by multiphoton ionization. The experimental results are in excellent agreement with the timescales and relaxation pathways predicted by new and definitively quantitative ab initio trajectory simulations.
ISSN:2331-8422
DOI:10.48550/arxiv.1402.1419