Quantum yields of fragments in 193 nm photodissociation of KI

Quantum yields for the loss of disilane and the formation of silane in the 193 nm photodissociation of disilane have been measured using time-resolved infrared diode laser absorption spectroscopy under single excimer laser pulse conditions at total pressures of 5 to 10 Torr in helium buffer gas. The

COFCl was photolyzed at 193 nm and at various total pressures. The parent molecule and the products were studied after irradiation by FTIR spectroscopy. The product molecules CO and COFs were analyzed quantitatively, whereas the formation of ClF could be excluded. COFCl decays into at least two chan

The absolute absorption cross section and photodissociation quantum yield of NO;! were determined over the wavelength region 375 to 420 nm at a temperature of 296 K. The quantum yield measurements were made at 1 nm intervals over this frequency range with an accuracy of + 7%. The data show a signifi

The rotational alignment As) of the NO(A) fragments in the photodissociation of the NO dimer at 193 nm has been determined based on the polarization response of the laser-induced fluorescence in the E %+-A 'Z+ transition. The observed alignment Ah\*) is negative, with increasing magnitude in higher

The production of Cl atoms in the laser flash photolysis of ClOOCl at 308 nm has been investigated by time-resolved atomic resonance fluorescence at 235 K. A value of @= 1.03 f 0. I2 has been obtained for the primary quantum yield based on an absorption cross section ratio u&u~~s=22 for CIOOCI at 24