Single-cycle versus multicycle nonsequential double ionization of argon
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Chen, Zhangjin
Morishita, Toru
Bartschat, Klaus
Boening, Birger
Fritzsche, Stephan
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Abstract
Using an improved quantitative rescattering model, we calculate the correlated two-electron momentum distributions (CMDs) for nonsequential double ionization of Ar exposed to intense laser pulses with a wavelength of 790 nm at a peak intensity of 1.0×1014W/cm2. We analyze the drastic variations in the CMDs that were observed by Kübel et al. [New J. Phys. 16, 033008 (2014)NJOPFM1367-263010.1088/1367-2630/16/3/033008] in the transition from near-single-cycle to multicycle driving laser pulses. Our model reproduces their experimental data well. We also find that the transition from near-single-cycle to multicycle driving laser pulses depends strongly on the details of the pulse envelope. Special attention is paid to the mechanisms responsible for the cross-shaped structure observed experimentally with 4 fs pulses. Our analysis reveals that the cross-shaped structure in the carrier-envelope phase-averaged CMD for near-single-cycle pulses can be attributed to strong backward scattering of the recolliding electron as well as the narrow momentum distributions of the tunnel-ionized electrons compared to those for long pulses. This also explains why the cross-shaped distributions collapse to a rather structureless distribution when the pulse duration is increased to 8 fs.
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Physical Review A
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104
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1
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Atomic, molecular and optical physics
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Physical Sciences
Optics
Physics, Atomic, Molecular & Chemical
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Liu, F; Chen, Z; Morishita, T; Bartschat, K; Boening, B; Fritzsche, S, Single-cycle versus multicycle nonsequential double ionization of argon, Physical Review A, 2021, 104 (1), pp. 013105