Ionizing collisions of long-lived highly excited hydrogen molecules with rare gas atoms

If the collisional ionization is chiefly due to energy transfer from the polar-molcculc rotation to an electron in a high Rydberg state of the atom, then theory predicts that the cross section averaged over a thermal distribution of rotational states should show step-like structure as a function of

Efficient vibrational excitation and dissociation of halogen molecules have been observed in molecular dynamics simulations of shock-heated ram-gas clusters. We discuss the propensity for such transfen in a single atom-molecule collision and present classical trajectory computational results. Rather

Evcimer laser (AM?) photolysls of dratomic and Qiatomic hydrides produces hydrogen atoms with tmnslaticd euer-Des in excess of 15000 an-l per atom. Subsequent colhsions of these "hot" atoms with CO2 and N20 produces vii=tionally exated molecules which can be detected by their characteristic i&tared

TWO series of transitions invotving excitation of the Sd \*Dsa excited state of Cs, np zPan \* Sd \*Ds~ (n = J J -16) and& 2: -\_ Sd 'Ds~ (n = 8-14). have been obyved as a fluorescence excitation spectrum in Cs-rare gas mixtures using a N2 Iaser pumped dye laser. The population of the Sd \*D 5n leve