Multiphoton ionization translational spectroscopy (MITS) of I2

The firs1 obsenatmn of resonanUy enhanced mulupholon ~omzatlon (REhlPI) of atonuc flr?orme IS reported Four excited stales are observed m the rwon o( 105000 cm-' correspondmg IO me 'Pp,L3,z -'P ,,? 1,2 three-photon translnon m a 3+2-photon romzauon process REMPI speclra of F2 m a 3 + I-phoron proces

High-resolution (2 + 1) multiphoton ionization spectroscopy of Br, was studied. Rotationally resolved spectra of the gerade Rydberg state [II,,,] 4d( u'= 1, 2) are reported for the first time. Rotational constants B, were deduced for the three isotopes, which are quite close to the data of the groun

The multiphoton-ionization spectroscopy of NH3 hasbeen explored using three-photon ionization through a two-photon resonant intermediate state. This method provides seatly inaeased sensitivity when compared to three-photon es&&on to the intermediate state.

We rep011 Lhe resonance enhanced mullipholon ionization spectrum of SIF between 430 and 492 run SIF radicals absorbed al least Lhrec photons lo generate the observed m/r 47 SiF ions Two-pholon absorption bands from C"'Z\* + X 2JI, and C'21TI, c X 21T, witions were observed An intense band from seque

The first reported multiphoton ionization spectrum (2 + 1) for atomic germanium has been obtained by multiphoton dissociation of a tetraethylgermane (TEG) precursor. The germanium spectrum indicates that the atoms were produced primarily in the ground electronic state. Time-of-flight mass spectromet