Abstract
The dynamics of Neon double ionization by 25 fs, 1.0 PW/cm 2 laser pulses at 795 nm has been studied in a many particle coincidence experiment. The momentum vectors of all ejected atomic fragments (electrons and ions) have been measured using combined electron and recoil-ion momentum spectroscopy. Electron emission spectra for double and single ionization will be discussed. In both processes the mean electron energies differ considerably and high energetic electrons with energies of more than 120 eV have been observed for double ionization. The experimental results are in qualitative agreement with the rescattering model.
Highlights
A detailed understanding of the processes occurring during the interaction of intense laser fields with matter form the basis for a wide range of potential applications from surgery and materials treatment to ignition of nuclear fusion
“Multiply charged ions induced by multiphoton absorption in rare gases at 0.53 μm,” Phys
Summary
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