Pulsed laser ablation of TiO2 at 355 nm and 532 nm has been investigated us
ing an angle-and time-resolved quadrupole mass spectrometric technique. The
major ablated species include O (m/e = 16), O-2 (m/e = 32), Ti (m/e = 48),
TiO (m/e = 64) and TiO2 (m/e = 80). The time-of-flight (TOF) spectra of ab
lated species are measured for the ionic and neutral ablated species, and t
hey can be fitted by a Maxwell- Boltzmann (M-B) distribution with a center-
of-mass velocity. The measured angular distributions of the ionic species (
O+ and Ti+) and the neutral species (O and Ti) can be fitted with cos(n) th
eta and acos theta + (1 - a)cos(n) theta, respectively. In addition, a cont
inuous wave oxygen molecular beam is introduced into the ablated plume, and
the enhancement of the signal intensities of TiO is observed. It implies t
hat the ablated Ti atoms/ions species can react with ambient oxygen molecul
es in the gas phase. In the meanwhile, the physicochemical mechanism of pul
sed laser ablation of TiO2 is discussed.