Production of electronically excited NF by the reaction of fluorine atoms with HN3

The reaction between hydrogen atoms and hydrogen azide has been studied by the discharge flow method. Emissions from NH$AIL NH('Y and NH?fl) uere observed. The NH,('AI) radical was highly excited in its ribrational states. ## Dependence of the emission intensity on reactant concentrations was exam

An efficient process for converting the energy stored in electronically excited NF(a'A) into blue-green BiF (A-X) band emissions has been discovered. Bismuth atoms are converted to BiF and then repeatedly pumped to the (AO') state in two steps via collisions with NF(a'A). A model has been formulated

Dye-pumped flash systems with enhanced long-wavelength spectral output have been used to escite ozone to a stable electronic state. Enhanced UV transient absorption observed during the flash esperiments is attributed to a combination of over-&l UV shift, as observed previousIy in IR-laser pumped exp

Addition of Oz(iAg) to the reacting mixture of NHs and F atoms,is found to produce the NF(b 'X3 radicals, identified by the light emission at 529 and 562 nm. The energy transfer process Oz('Ag) + NF(a 'A& + 02 + NF(b IX+) explains the light emission.