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Volume 194, 2016
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Visualization of bond rearrangements in acetylene using near single-cycle laser pulses

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Abstract

The migration of hydrogen atoms resulting in the isomerization of hydrocarbons is an important process which can occur on ultrafast timescales. Here, we visualize the light-induced hydrogen migration of acetylene to vinylidene in an ionic state using two synchronized 4 fs intense laser pulses. The first pulse induces hydrogen migration, and the second is used for monitoring transient structural changes via Coulomb explosion imaging. Varying the time delay between the pulses reveals the migration dynamics with a time constant of 54 ± 4 fs as observed in the H+ + H+ + CC+ channel. Due to the high temporal resolution, vibrational wave-packet motions along the CC- and CH-bonds are observed. Even though a maximum in isomerization yield for kinetic energy releases above 16 eV is measured, we find no indication for a backwards isomerization — in contrast to previous measurements. Here, we propose an alternative explanation for the maximum in isomerization yield, namely the surpassing of the transition state to the vinylidene configuration within the excited dication state.

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Article information


Submitted
15 Apr 2016
Accepted
10 May 2016
First published
10 May 2016

This article is Open Access

Faraday Discuss., 2016,194, 495-508
Article type
Paper

Visualization of bond rearrangements in acetylene using near single-cycle laser pulses

C. Burger, N. G. Kling, R. Siemering, A. S. Alnaser, B. Bergues, A. M. Azzeer, R. Moshammer, R. de Vivie-Riedle, M. Kübel and M. F. Kling, Faraday Discuss., 2016, 194, 495
DOI: 10.1039/C6FD00082G

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