Abstract
The correlated motion of the two deuterium atoms associated with the hydrogen migration and structural deformation to non-planar geometry are identified in acetylene dication by the time-resolved four-body Coulomb explosion imaging.
Highlights
Recent advances in laser technology enabled us to utilize few cycle intense laser pulses (
The correlated motion of the two deuterium atoms associated with the hydrogen migration and structural deformation to non-planar geometry are identified in acetylene dication by the time-resolved four-body Coulomb explosion imaging
We extend our previous study on ultrafast hydrogen migration by using time-resolved four-body Coulomb explosion imaging to clarify the correlated motion of the two deuterium atoms in deuterated acetylene dication [7]
Summary
Recent advances in laser technology enabled us to utilize few cycle intense laser pulses (
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