Optimization of laser cleaning conditions using multimode short-pulse radiation

Aiming at significant enhancement of laser cleaning efficiency and productivity, we studied several typical experimental cases including removal of contaminated layers from absorbing surfaces, paying special attention to elimination of the thick rusty layers, and removal of absorbing coatings from t...

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Published in	Optical and quantum electronics Vol. 52; no. 6
Main Authors	Kravchenko, Ya. V., Klimentov, S. M., Derzhavin, S. I., Mamonov, D. N., Karpov, N. V., Mayorov, A. N.
Format	Journal Article
Language	English
Published	New York Springer US 2020 Springer Nature B.V
Subjects	Characterization and Evaluation of Materials Cleaning Computer Communication Networks Electrical Engineering Fundamentals of Laser Assisted Micro- & Nanotechnologies 2019 Laser beams Lasers Nanosecond pulses Neodymium lasers Optical Devices Optics Optimization Photonics Physics Physics and Astronomy Semiconductor lasers Substrates YAG lasers Short laser pulses Multimode fiber Ablation Laser cleaning Explosive boiling Ablation-reactive effect
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Abstract	Aiming at significant enhancement of laser cleaning efficiency and productivity, we studied several typical experimental cases including removal of contaminated layers from absorbing surfaces, paying special attention to elimination of the thick rusty layers, and removal of absorbing coatings from transparent substrates. Nanosecond pulses of Nd:YAG laser were used in all the cases at variation of the mode content of the laser beam which was achieved by applying a multimode fiber delivery of radiation. Both, air and water ambient were used in the experiments. The results are discussed in terms of plasma microexplosions in the domain of the substrate–layer interface and the vapor bubbles formation inside the thick rusty layer impregnated with liquid.
AbstractList	Aiming at significant enhancement of laser cleaning efficiency and productivity, we studied several typical experimental cases including removal of contaminated layers from absorbing surfaces, paying special attention to elimination of the thick rusty layers, and removal of absorbing coatings from transparent substrates. Nanosecond pulses of Nd:YAG laser were used in all the cases at variation of the mode content of the laser beam which was achieved by applying a multimode fiber delivery of radiation. Both, air and water ambient were used in the experiments. The results are discussed in terms of plasma microexplosions in the domain of the substrate–layer interface and the vapor bubbles formation inside the thick rusty layer impregnated with liquid.
ArticleNumber	280
Author	Karpov, N. V. Derzhavin, S. I. Kravchenko, Ya. V. Mamonov, D. N. Mayorov, A. N. Klimentov, S. M.
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SubjectTerms	Characterization and Evaluation of Materials Cleaning Computer Communication Networks Electrical Engineering Fundamentals of Laser Assisted Micro- & Nanotechnologies 2019 Laser beams Lasers Nanosecond pulses Neodymium lasers Optical Devices Optics Optimization Photonics Physics Physics and Astronomy Semiconductor lasers Substrates YAG lasers
Title	Optimization of laser cleaning conditions using multimode short-pulse radiation
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