Multiple ionization of C+, N+ and O+ ions by fast electron impact

Lecointre, Julien [UCL] Kouzakov, K.A. [Department of Nuclear Physics and Quantum Theory of Collisions, Faculty of Physics, Lomonosov Moscow State University, Moscow, Russia] Belic, D.S. [University of Belgrade, Faculty of Physics, Belgrade, Serbia] Defrance, Pierre [UCL] Popov, Yu.V. [Skobeltsyn Institute of Nuclear Physics, Lomonosov Moscow State University, Moscow, Russia] Shevelko, V.P. [Lebedev Physical Institute, Russian Academy of Sciences, Moscow, Russia]

Absolute cross sections for electron impact single and multiple ionization of C⁺, N⁺ and O⁺ ions leading to the formation of C^{q +} (q = 2-4), N^{q +} (q = 2-5) and O^{q +} (q = 2-5) are reported. The animated crossed beam method is applied in the energy range extending from the respective thresholds up to 2.5 keV. The concerned target ions belong to the second row of the periodic table, with configurations 2s²2p^x (x = 1-3). The maximum cross sections for the multiply charged products C^{q +} are found to be in the range from 2.3× 10^-20 cm² (for C^{4 +}) up to 6.3× 10^-17 cm² (for C^{2 +}); for N ^{q +} they range from 3.0× 10^-22 cm² (for N^{5 +}) up to 5.1× 10^-17 cm² (for N ^{2 +}) and, lastly, for O^{q +} they range from 5.5× 10^-22 cm² (for O^{5 +}) up to 5.2× 10 ^-17 cm² (for O^{2 +}). The corresponding threshold energies are found to be in satisfactory agreement with spectroscopic values. The general feature of the measured cross sections is investigated. Their values for single ionization are reasonably explained by the calculations using the Coulomb-Born approximation with exchange, while those for multiple ionization are found to agree well with the semiempirical model for q = 3, but they appear to be notably overestimated by a semiempirical Bethe-Born-type formula when q > 3. © 2013 IOP Publishing Ltd.