Photodissociation of methyl nitrite at 248 and 350 nm in a molecular beam

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

## Abstract The Br~2~ elimination channel is probed for 1,2‐C~2~H~2~Br~2~ in the B${{}^3{\rm{\Pi }}\_{ou}^ + }$–X${{}^1{\rm{\Sigma }}\_g^ + }$ transition upon irradiation at 248 nm by using cavity ring‐down absorption spectroscopy (CRDS). The nascent vibrational population ratio of Br~2~(__v__=1)/B

Methyl nitrIte, CH30N0. was dlssoclated by mfrared laser pulses of well defined intensity under cokron-less condtttons tn a pulsed molcculnr beam. Doppler-resolved laser-exctted fluorescence spectroscopy determmed the kmetic energy of the nttric oxtde fragments formed tn parttcular quantum states Th