Research of laser evaporation of fast-moving target

Abstract

Evaporation of a stainless steel target moving with high speed (∼50 m/s) under action of laser radiation was investigated theoretically and experimentally. In our experiments we used an electroionization CO2—laser, which generated pulses with duration up to 1 ms and energy up to 100 J. We carried out the microscopic research of laser beam trace on the target surface and investigated the dynamics of the laser plume luminescence. For theoretical research we used 3D numerical model, which took into account: heating, melting and evaporation of target by laser beam, and, thermal effect of oxidation reaction. The results of calculations can explain the experimental data quite good. In particular, it is possible to explain occurrence of interrupted trace on the target at 12–24 kW laser power, that corresponds to intensity in the focal spot of ∼107 W/cm2. This power is a threshold of unstable mode of laser evaporation. The unstable mode is caused by lack of oxygen, which was pushed away with metal vapor. The lack of oxygen leads to shutting down the oxidation reaction on target surface. The reaction resumes when the vapors fly away and oxygen riches the surface. As the result pulsed mode of evaporation takes place. This phenomenon was observed as pulse mode of laser plume luminescence and was obtained by calculations.