Guichard, R Richter, M Rost, J-M Saalmann, U A Sorokin, A Tiedtke, K Experimental data for Ne ionization yields measured at photon energies of 93.0 (▪) and 90.5 eV () with pulses of 15 fs duration compared with results from the present minimal model ({full}) and results from the elaborate rate description for 30 fs pulse length of [20] (- − − −) <p><strong>Figure 3.</strong> Experimental data for Ne ionization yields measured at photon energies of 93.0 (▪) and 90.5 eV () with pulses of 15 fs duration compared with results from the present minimal model ({\full}) and results from the elaborate rate description for 30 fs pulse length of [<a href="http://iopscience.iop.org/0953-4075/46/16/164025/article#jpb462020bib20" target="_blank">20</a>] (- − − −).</p> <p><strong>Abstract</strong></p> <p>At the free-electron laser FLASH, multiple ionization of neon atoms was quantitatively investigated at photon energies of 93.0 and 90.5 eV. For ion charge states up to 6+, we compare the respective absolute photoionization yields with results from a minimal model and an elaborate description including standard sequential and direct photoionization channels. Both approaches are based on rate equations and take into account a Gaussian spatial intensity distribution of the laser beam. From the comparison we conclude that photoionization up to a charge of 5+ can be described by the minimal model which we interpret as sequential photoionization assisted by electron shake-up processes. For higher charges, the experimental ionization yields systematically exceed the elaborate rate-based prediction.</p> flash;ion charge states;Ne ionization yields;laser;30 fs pulse length;15 fs duration;93.0;photoionization;ev;sequential;photon energies;model;Atomic Physics;Molecular Physics 2013-08-13
    https://iop.figshare.com/articles/figure/_Experimental_data_for_Ne_ionization_yields_measured_at_photon_energies_of_93_0_and_90_5_eV_img_src_/1012462
10.6084/m9.figshare.1012462.v1