Collisionless infrared multiphoton production of electronically excited parent molecules

In the absence of collisions, luminescence is observed upon irradiaaon of \ my1 cyanide molecules 11 ith rhe focused output from a CO2 TE\_4 laser, namely, two broad, srructureless features. ar 390 nm and in rhe IR whose intensity depends hnearly on pressure from IO-' to 10" torr. At higher pressure

The infrared multiphoton excitation of tetramethylsilane and chloromethyltrimethylsilane molecules, under collision-free and collisional conditions, with a tunable CO2 laser resulted in an intense ultraviolet-visible luminescence. The spectral analysis and the time profile of this luminescence has b

A method is offered to estimate quantitatively the energy distribution of molecules reacting after being excited by multiphoton absorption of infrared radiation. The method is based on the comparison of the real time reaction kinetics obtained in the infrared multiphoton experiment with those observ

ChemZiZescence is observed from DN3 at pressures beIov3 100 mtorr fonowing irradiation with the focused output of a Co? TJZA laser. Emission is attributed to ND2 (2A1) formed in the reaction ND@ :a) + DN3 -c ND2 (\*Al) i N3. The ND(a i a) is produced ia the primary photolysis. Tiie resolved studies