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Initiation of an early-stage plasma during picosecond laser ablation of solids

Samuel S. MaoLawrence Berkeley National Laboratory, Berkeley, California 94720Xianglei MaoLawrence Berkeley National Laboratory, Berkeley, California 94720R. GreifLawrence Berkeley National Laboratory, Berkeley, California 94720Richard E. RussoLawrence Berkeley National Laboratory, Berkeley, California 94720
2000en
ABI

Annotatsiya

Picosecond time-resolved images of plasma initiation were recorded during pulsed-laser ablation of metal targets in an air atmosphere. An early-stage plasma was observed to form before the release of a material vapor plume. Close to the target surface, interferometry measurements indicate that the early-stage plasma has an electron number density on the order of 1020 cm−3. The longitudinal expansion of the ionization front for this plasma has a velocity 109 cm/s, during the laser pulse. In contrast, a material–vapor plume forms approximately 200 ps after the laser pulse, and it moves away from the target at 106 cm/s. The experimental observations of the early-stage plasma were simulated by using a theoretical model based on a two-fluids description of laser plasmas. The results indicate that the initiation of the plasma is due to air breakdown assisted by electron emission from the target.

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