Photodissociation of nitric acid in a cold molecular beam at 193 nm

A molecular beam of SO\* has been photodissociated at I93 nm to measure both the translational energy and angular distributions, from which it is concluded that the photodissociation is predissociative and that the vibrational population is peaked at un =2.

A molecular beam of C,F,CI was photolyzed using an excimer iaser at 193 nm. Measurements of time-of-flight dtstributions of the Cl photofragment revealed a prominent fluorination effect on the dissociation process, namely a large reduction of the kinetic energy of the fragments. The dominant process

The photodissociation of the dichlorocarbene radical CClz at 248 nm has been studied by photofragment translational speo troscopy. An intense beam of cold CClz was generated from CHCIS by a pulsed molecular beam source equipped with a flash pyrolysis nozzle. The photolysis proceeds exclusively via C

The photodissociation of methyl hydroperoxide (CHaOOH) has been studied in a molecular beam by photofragment translational spectroscopy. As CH,OOH rapidly decomposes upon contact with metal, a new metal-free molecular beam source was designed, which is also suited to the generation of beam pulses of

The 193 nm photodissociation of NOCI has been studied by photofragment translational spectroscopy under collisionless conditions, Time-of-flight (TOF) distributions of the Cl and NO fragments were measured at various detectton angles and different laser polarizations. The overall vibrational distrib