Temporal evolution study of the plasma induced by CO2 pulsed laser on targets of titanium oxides

•Plasma plumes of Titanium oxides have been characterized by high resolution LIBS.•Emissions are due to relaxation of excited Ti+, O+, Ti2 +, O2 +, Ti3 +, and Ti4 +.•Plasma temperature is measured at different delays, the maximum is around 23,000 K.•The electron density value after 0.1 μs is nearly constant around 6 × 1016 cm− 3.•Above ablation threshold, anatase–rutile transformation shows an incubation effect.

This paper reports studies on time-resolved laser induced breakdown spectroscopy (LIBS) of plasmas induced by IR nanosecond laser pulses on the titanium oxides TiO and TiO2 (anatase). LIBS excitation was performed using a CO2 laser. The laser-induced plasma was found strongly ionized yielding Ti+, O+, Ti2 +, O2 +, Ti3 +, and Ti4 + species and rich in neutral titanium and oxygen atoms. The temporal behavior of specific emission lines of Ti, Ti+, Ti2 + and Ti3 + was characterized. The results show a faster decay of Ti3 + and Ti2 + ionic species than that of Ti+ and neutral Ti atoms. Spectroscopic diagnostics were used to determine the time-resolved electron density and excitation temperatures. Laser irradiation of TiO2-anatase induces on the surface sample the polymorphic transformation to TiO2-rutile. The dependence on fluence and number of irradiation pulses of this transformation was studied by micro-Raman spectroscopy.