PRODUCTION OF MULTICHARGED ATOMIC IONS FROM LASER-INDUCED MULTIPLE IONIZATION OF SMALL MOLECULES

The production of CZ+, NZ+, and OZ+ multicharged atomic ions up to Z=4 is investigated using the laser-induced multiple ionization of small molecules in the gas phase in the 10(15)-10(16)-W/cm(2) laser intensit y range. For molecules built with a single C, N, or O atom and hydroge n atoms such as CH4, NH3, and H2O, the Z=3 and 4 ion yields are system atically weaker than for molecules built with equivalent atoms such as N-2, CO, O-2, CO2, and N2O using rigorously the same laser excitation conditions. In particular, the C4+, N4+ and O4+ ion production effici ency is more than one order of magnitude lower in the first case. In a ddition, no significant differences are found for the ion production e fficiency between diatomic and linear triatomic molecular species buil t with the same atoms. This overall behavior remains the same at lower laser intensities in the 10(14)-10(15)-W/cm(2) range for lower atomic ions charge states. The experimental results are in good qualitative agreement with recent theoretical models of molecules in strong laser fields. In order to get quantitative agreement, the initial three-dime nsional electronic configuration of each molecule has to be included i n nonperturbative theories.