Time development of resonant two-photon autoionisation of H2

Ni: ions generated in a pulsed high-temperature plasma and cooled by supersonic expansion are photodissociated with tunable visible laser radiation. Resonant bound-bound absorption in the isolated ion is detected by the observation of Ni: +Ni+ + NI sequential two-photon dissociation. Progressions of

Rrcwcd 17 Seprcnrber I981 Mtli the excepIlon of a few early experiments (I-31, the hrgh Ionization potenkd of H, has not allowed derailed mulripholon smdles Recent advances III the generation of strong UV radiation, however, have opened possibilities for three-and four-photon iomzallon and auloiomza

Sequcnthl two-photon ionization of Liz m B supersonic beam with Iwo pulsed tunable dye lasers yxlds the adubatlc ionization potentird IP(Li2)=41475 \* 8 cm-' and the dusoaatlon energy of the Ion Do(LI; z~L) = 10353 \* 25 cm-' TIIC lnflucnce of ~kctnc fidds on the measured vnluc of the ionuation po~c

We show that resonant two-photon versus two-photon interference provides a means of controlling relative photodissociation cross sections even when the initial molecular system is in a mixed state, e.g. in thermal equilibrium. The resultant technique, which also allows cancellation of incoherences d

We demonstrate for the first time that stimulated Raman pumping (SRP) can be used to vibrationally excite gas-phase negative ions. Results are presented for C 2 , in which stimulated Raman pumping excites a rotationally resolved transition 2 + between the v = 0 and v = 1 levels of the ground ~g stat