Abstract
High intensity (i.e. 10 13 W/cm 2) picosecond and femtosecond laser pulses are utilized to study possible photoinization mechanisms of Cr(CO) 6. This work represents the first example of excitation of a metal carbonyl with 800 nm photons where the ionization of intact molecular species dominates photofragmentation channels. With picosecond pulse excitation, however, attenuation of the laser power appears to induce a higher degree of fragmentation. The data can best be interpreted assuming two distinct photoionization mechanisms where MPI dominates at low laser powers and a transition occurs to barrier suppression ionization as the laser power is increased.
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