Orientation-Dependent Enhanced Ionization in Acetylene Revealed by Ultrafast Cross-Polarized Pulse Pairs
Abstract
We investigate the orientation dependence of Enhanced Ionization (EI) during strong-field-driven nuclear motion in acetylene (C$_2$H$_2$). Here, we both initiate and probe molecular dynamics in acetylene with intense 6-fs cross-polarized pulse pairs, separated by a variable delay. Following multiple ionization by the first pulse, acetylene undergoes simultaneous elongation of the carbon-carbon and carbon-hydrogen bonds, enabling further ionization by the second pulse and the formation of a very highly charged state, [C$_2$H$_2]^{6+}$. At small inter-pulse delays ($<$20 fs), this enhancement occurs when the molecule is aligned to the probe pulse. Conversely, at large delays ($>$40 fs), formation of [C$_2$H$_2]^{6+}$ occurs when the molecule is aligned to the pump pulse. By analyzing the polarization and time dependence of sequentially ionized [C$_2$H$_2]^{6+}$, we resolve two distinct pathways that both contribute to a large increase in the multiple ionization yield. This cross-polarized pulse pair scheme uniquely enables selective probing of deeply bound orbitals, providing new insights on orientation-dependent EI in highly charged hydrocarbons.
- Publication:
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arXiv e-prints
- Pub Date:
- November 2024
- DOI:
- arXiv:
- arXiv:2411.04144
- Bibcode:
- 2024arXiv241104144M
- Keywords:
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- Physics - Atomic Physics;
- Physics - Chemical Physics;
- Quantum Physics