A. A. Kolomenskiǐ scite author profile

We present an analytical inversion technique which can be used to recover ionization probabilities from spatially averaged data in an N-dimensional detection scheme. The solution is given as a power series in intensity. For this reason, we call this technique a multiphoton expansion (MPE). The MPE formalism was verified with an exactly solvable inversion problem in 2D, and probabilities in the postsaturation region, where the intensity-selective scanning approach breaks down, were recovered. In 3D, ionization probabilities of Xe were successfully recovered with MPE from simulated (using the ADK tunneling theory) ion yields. Finally, we tested our approach with intensity-resolved benzene ion yields showing a resonant multiphoton ionization process. By applying MPE to this data (which was artificially averaged) the resonant structure was recoveredsuggesting that the resonance in benzene may have been observable in spatially averaged data taken elsewhere.

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Energy transfer between laser filaments in liquid methanol

Strycker

Springer

Trendafilova

et al. 2011

Opt. Lett.

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We demonstrate energy exchange between two filament-forming femtosecond laser beams in liquid methanol. Our results are consistent with those of previous works documenting coupling between filaments in air; in addition, we identify an unreported phenomenon in which the direction of energy exchange oscillates at increments in the relative pulse delay equal to an optical period (2.6 fs). Energy transfer from one filament to another may be used in remote sensing and spectroscopic applications utilizing femtosecond laser filaments in water and air.

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A. A. Kolomenskiǐ

Hyperfine Structure of the Ground State ofHe+3by the Ion-Storage Exchange-Collision Technique

Nuclear shape isomerism in 185Hg detected by laser spectroscopy

Reconstruction of ionization probabilities from spatially averaged data inNdimensions

Energy transfer between laser filaments in liquid methanol

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