Optical Interference Effect in Strong-field Electronic Coherence Spectroscopy
- URL: http://arxiv.org/abs/2505.21788v1
- Date: Tue, 27 May 2025 21:38:48 GMT
- Title: Optical Interference Effect in Strong-field Electronic Coherence Spectroscopy
- Authors: Eleanor Weckwerth, Andrew J. Howard, Chuan Cheng, Ian Gabalski, Aaron M. Ghrist, Salma A. Mohideen, Chii-Dong Lin, Chi-Hong Yuen, Philip H. Bucksbaum,
- Abstract summary: We have investigated strong-field-induced electronic coherences in argon and molecular nitrogen ions created by high-intensity, few-cycle infrared laser pulses.<n>This is a step toward the long-sought goal of strong-field coherent control in molecular chemistry.
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- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: We have investigated strong-field-induced electronic coherences in argon and molecular nitrogen ions created by high-intensity, few-cycle infrared laser pulses. This is a step toward the long-sought goal of strong-field coherent control in molecular chemistry. We employed high-intensity, few-cycle infrared laser pulses in a pump-probe setup to investigate a recent prediction that electronic coherences in nitrogen molecules change the ion yields vs. pump-probe delay. [Yuen and Lin, Phys. Rev. A 109, L011101 (2024)]. The predicted coherence signals in molecular nitrogen could not be resolved above the optical interference of the pump and probe pulses; a simultaneous measurement clearly resolved the induced cation fine-structure coherence in strong-field-ionized argon. The results of our comparison with simulations suggest that optical interference effects manifest differently in each ionic species and must be carefully accounted for when interpreting experimental data. We found that nonsequential double ionization in the low-intensity region of the focal volume can reduce the visibility of coherence generated by two-pulse sequential ionization, and we quantify the importance of pulse shape and spectral characteristics for isolating the desired coherence signals.
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