1. Ablation mass features in multi-pulses femtosecond laser ablate molybdenum target
- Author
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N. Gierse, Hongbin Ding, Julian Wegner, G. Pretzler, S. Brezinsek, Olaf Neubauer, Christian Linsmeier, J. Oelmann, Yunfeng Liang, Marcin Rasinski, and Dongye Zhao
- Subjects
Nuclear and High Energy Physics ,Materials science ,Laser ablation ,Pulse (signal processing) ,business.industry ,medicine.medical_treatment ,chemistry.chemical_element ,Ablation ,Laser ,01 natural sciences ,010305 fluids & plasmas ,law.invention ,Wavelength ,Optics ,chemistry ,law ,Molybdenum ,0103 physical sciences ,Femtosecond ,medicine ,Laser-induced breakdown spectroscopy ,010306 general physics ,business ,Instrumentation - Abstract
In this study, the ablation mass features related to reflectivity of bulk Molybdenum (Mo) were investigated by a Ti: Sa 6 fs laser pulse at central wavelength 790 nm. The ablated mass removal was determined using Confocal Microscopy (CM) technique. The surface reflectivity was calibrated and measured by a Lambda 950 spectrophotometer as well as a CCD camera during laser ablation. The ablation mass loss per pulse increase with the increasing of laser shots, meanwhile the surface reflectivity decrease. The multi-pulses (100 shots) ablation threshold of Mo was determined to be 0.15 J/cm2. The incubation coefficient was estimated as 0.835. The reflectivity change of the Mo target surface following multi-pulses laser ablation were studied as a function of laser ablation shots at various laser fluences from 1.07 J/cm2 to 36.23 J/cm2. The results of measured reflectivity indicate that surface reflectivity of Mo target has a significant decline in the first 3-laser pulses at the various fluences. These results are important for developing a quantitative analysis model for laser induced ablation and laser induced breakdown spectroscopy for the first wall diagnosis of EAST tokamak.
- Published
- 2018
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