V. Bazin et al., Velocity dependence of single-electron capture for the 0.4-5-keV/amu Ar8+-Cs(6s) collision system - art. no. 052706, PHYS REV A, 6205(5), 2000, pp. 2706
The single-electron capture (SEC) process which occurs in Ar8+-Cs(6s) colli
sions is experimentally studied, in the 0.4-5-keV/amu energy range, by opti
cal spectroscopy in the near UV and visible wavelength range (200-600 nm).
The classical-trajectory Monte Carlo (CTMC) method is also used to determin
e the state-selective electron-capture cross sections. For high collision e
nergies, strong lines corresponding to Deltan = 1-4 transitions from n = 7
to 13 states with large angular momentum values of Ar vm and Deltan = 0 tra
nsitions from n = 5 states are observed. For low collision energies, togeth
er with the lines observed for high collision energies, lines corresponding
to transitions from states with low-l values (10s, 11s, and 13s) are detec
ted. Production cross sections for the most populated levels (n = 9, 10, an
d 11) are determined and compared with the previous experimental data of Ma
rtin et al. [Phys. Rev. A 46, 1316 (1992)] and Denis et al. [Phys. Rev. A 5
0, 2263 (1994)], and with the CTMC calculations. From molecular structure c
alculations which are performed for the (Ar7+ + CS)(+) molecular system, ou
r results are analyzed in terms of dynamical couplings between the relevant
molecular channels involved in the electron-capture process. Polarization
degrees for SEC lines corresponding to transitions between high-l values st
ates are also measured. The comparison with those calculated from the CTMC
results provides information about the Zeeman sublevel distributions.