Kinetic study of electronically excited silicon atoms, Si(3p2(1S0)), by time-resolved attenuation of atomic resonance radiation

The collisional behaviour of electronically excited silicon atoms in the opticalIy metastable 3p2 (ID\*) state (0.781 eV) is imestigated by time-resolved resonance absorption in the ultraviolet. Si(3 '9) was generated by the repetitive pulsed irmdiation of Sic14 at & > 165 nm in a flow system, and m

EIectroniUIlY excited iodine atoms, 1(5'P,,,), have been monitored using time xsolved atomic resmancc fluorescence. Rate data t'or quenching by C3Hs and CD4 ax presented.

A kinetic investigation of electronically excited arsenic atoms in the low-lying states, As(4ps ' 0 5 ) and As(4p3 2P~), ca. 1.33 and 2.28 eV, respectively, above the 44S312 ground state, has been carried out by atomic absorption spectroscopy. Atoms in these optically metastable states were generate

A kinetic study of lead atoms in the spin orbit states, Pb(63P1) and Pb Pb(63Pz), 0.969 and 1.320 eV, respectively, above the 6 3 P ~ ground state, has been carried out by atomic absorption spectroscopy. The electronically excited lead atoms were generated by the pulsed irradiation of lead tetraethy

A method is described for investigating the kinetics of electronically excited lead atoms, Pb(6 1 Dz), by atomic absorption spectroscopy.

We present 1 study of the collisional behaviour of chlorine atoms in the 2P t12 spin orbit state, 881 cm-l above the 3pxz level in the 3ps ground state configuration. Cl(32P,,2) was generated by the repetitive, pulsed irradiation of CC& and monitored photoeIectricalIy in absorption by time-resolved