Rotational distribution of N2+ fragments from 355 nm photolysis of N4+

The photodissociation spectrum of N: from 270 to 310 nm is broad and structureless at 300 K, with the cross section diminishing by a factor of 10 towards shorter wavelengths. We have detected fluorescence from N:(g) excited state fragments having quantum yield < 0.01 and risetime < 10 ns. The thresh

Emission spectra observed during the ArF 193 nm laser photolysis of diborane have been assigned, on the basis of band type and laser power dependence, to new transitions of BHr and BHr. Known transitions of BH and atomic boron were also observed. The BH and BHr bands, excited by twophoton absorption

The photodissociation of methyl nitrite (CHsONO) at 355 nm in a supersonic free-jet expansion has been studied by stateresolved two-photon laser-induced fluorescence of the NO fragment. The vibrational population distribution of the nascent NO is much colder than reported for the photodissociation o

The photochemical reactions of N-(methylphenylamino)-2,4,6-trimethylpyridinium tetrafluoroborate were studied to find evidence of photodecomposition to a nitrenium ion reactive intermediate. Stable products were formed that were consistent with a singlet-state methylphenylnitrenium ion precursor. Th

## Ground -state rotational cncrgy drstrlbutlons of N2 molcculcs produced m pure and tic-scedcd supcrsomc c\p.muons have been determined by mcasurcments of the N; firsl ncgatlve band rolatlonal hnc rntcnWxs produced by 800 eV clccrron Impact on cooled pure and Hc-sccdcd N2 supcrsomc beams Suffic~n