Intensity dependence in nonsequential double ionization of helium | Zendy

Zhangjin Chen | Zendy; Wen Hua | Zendy; Fang Liu | Zendy; Tōru Morishita | Zendy; Oleg Zatsarinny | Zendy; Klaus Bartschat | Zendy

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Intensity dependence in nonsequential double ionization of helium

Author(s) -

Zhangjin Chen,

Wen Hua,

Fang Liu,

Tōru Morishita,

Oleg Zatsarinny,

Klaus Bartschat

Publication year - 2020

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.386971

Subject(s) - atomic physics , double ionization , physics , ionization , electron , excited state , helium , momentum (technical analysis) , excitation , laser , scattering , range (aeronautics) , intensity (physics) , optics , ion , materials science , nuclear physics , quantum mechanics , finance , economics , composite material

Using the quantitative rescattering model, we simulate the correlated two-electron momentum distributions for nonsequential double ionization of helium by 800 nm laser pulses at intensities in the range of (2 - 15) × 10 14 W/cm 2 . The experimentally observed V-shaped structure at high intensities [A. Rudenko et al., Phys. Rev. Lett. 99, 263003 (2007)] is attributed to the strong forward scattering in laser-induced recollision excitation and the asymmetric momentum distribution of electrons that are tunneling-ionized from the excited states. The final-state electron repulsion also plays an important role in forming the V-shaped structure.

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