Polarization dependence of infrared multiphoton excitation in SF6

A simple model of multiphoton excitation and dissociative ionization process of SF6 is proposed. The modei is compared with experimental results of Brunner et al. It uas found that a three-photon absorption laid reproduced the experimental results with good agreement. In addition the relative enhanc

Crossed laser and molecular beams were. used to obtain the recoii-energy distributions of fragments in the study af multiphoton dissociation of SF& The measured recoil-ener\_gy distributions of SFs under a laser excitation of = 10 J/cm' are in good agreement with the theoretical prediction of the RR

The dwowuon of STsCI and CFS1 scnslttzed by multIphoton cwtation of SF6 by a pulsed CO1 Iascr has been studxd vrrsus prcssurc. laser lluence, mert gasend oplical frcqucncy. lsoto P \_ IC cfrccls have been obscrvcd bclwccn 3zST~Cl/37S~~CI and bcrwccn '3Cr#\*Cr31 and selccriv~ty factors as tngh as (r&

SO? molecules excited under essentialIp collision-free conditions by intense (>20 G\V]cm') COP laser pulses @ve off a broad UV-visible luminescence through inverse electronic relaxation. Unlike in lager polyatomics, the infrared multiphoton escitation process is controlled by the laser intensity and