Abstract
The dynamics of ablation in monocrystalline silicon, from electron-hole plasma generation to material expansion, upon irradiation by a single femtosecond laser pulse (1030 nm, 300 fs pulse duration) at a wide range of fluences is investigated using a time-resolved microscopy technique. The reflectivity evolution obtained from dynamic images in combination with a theoretical Drude model and a Two-Temperature model provides new insights on material excitation and ablation process. For all fluences, the reflectivity increased to a temporary stable state after hundreds of femtoseconds. This behavior was predicted using a temperature-dependent refractive index in the Drude model. The increase in velocity of plasma generation with increasing fluence was theoretically predicted by the Two-Temperature model. Two ablation regimes at high fluences (>0.86 J/cm2) were identified through the measured transient reflectivity and ablation crater profile. The simulation shows that the fluence triggering the second ablation regime produces a boiling temperature (silicon, 2628 K).
Highlights
Femtosecond laser pulses with short duration and high peak intensity [1] are widely applied to the areas of micromachining [2,3], medical surgery [4,5], and biological analysis [6]
The onon ablation dynamics waswas investigated via comparing the the pump-probe images at delay ranging to 1using ns, using different pump-probe images at delay timestimes ranging fromfrom
We study the temporal evolution of plasma generation in relation to laser fluence using a TTM
Summary
Femtosecond (fs) laser pulses with short duration and high peak intensity [1] are widely applied to the areas of micromachining [2,3], medical surgery [4,5], and biological analysis [6]. Solis et al studied the electron-hole (e–h) plasma generation, relaxation, phase transition, and the structuring of different materials by measuring the reflectivity change using the dynamic images [21,22,23,24,25,26] These analyses revealed the relaxation times of the Micromachines 2022, 13, 14. Micromachines 2022, 13, 14 phase transition, and the structuring of different materials by measuring the reflecti change using the dynamic images [21,22,23,24,25,26] These analyses revealed the relaxation time the free-electron plasma and the relationship between the crater depth and laser-be fluence.
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