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Teplofizika vysokikh temperatur, 2020, Volume 58, Issue 4, Pages 689–706
DOI: https://doi.org/10.31857/S0040364420040043 (Mi tvt11378) 		 
This article is cited in 29 scientific papers (total in 29 papers)

Heat and Mass Transfer and Physical Gasdynamics

Laser ablation: Physical concepts and applications (review)

N. A. Inogamovab, Yu. V. Petrovac, V. A. Khokhlova, V. V. Zhakhovskiibd

a L.D. Landau Institute for Theoretical Physics of Russian Academy of Sciences
b All-Russia Research Institute of Automatics named after N L Dukhov, Moscow
c Moscow Institute of Physics and Technology (National Research University), Dolgoprudny, Moscow Region
d Joint Institute for High Temperatures, Russian Academy of Sciences, Moscow
Full-text PDF (1141 kB) Citations (29)
DOI: https://doi.org/10.31857/S0040364420040043
Abstract: Laser ablation (i.e., the removal of target material upon irradiation) is under consideration; it is widely applied in some technologies. Physical models needed for an understanding of ablation have been developed since the invention of the first lasers. Some phenomena have been thoroughly investigated; however, there are still many problems that should be analyzed additionally. These poorly studied phenomena include surface structuring. The problems concerning ablation in liquid and laser forging/peening are not yet completely understood. They represent two sides of the same process: in the first case, the emphasis is on the description of motion of the substance beyond the target, whereas, in the case of laser forging, one abstracts from the plume and considers the elastoplastic transformations caused by a shock wave inside a target. The hydrodynamics of these processes differs radically with the transition from ultrashort to long pulses.
Received: 16.03.2020
Revised: 26.03.2020
Accepted: 30.03.2020
English version:
High Temperature, 2020, Volume 58, Issue 4, Pages 632–646
DOI: https://doi.org/10.1134/S0018151X20040045
Bibliographic databases:
Document Type: Article
UDC: 532.593; 536.331; 539.424
Language: Russian
Citation: N. A. Inogamov, Yu. V. Petrov, V. A. Khokhlov, V. V. Zhakhovskii, “Laser ablation: Physical concepts and applications (review)”, TVT, 58:4 (2020), 689–706; High Temperature, 58:4 (2020), 632–646
Citation in format AMSBIB
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\paper Laser ablation: Physical concepts and applications (review)
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  • https://www.mathnet.ru/eng/tvt11378
  • https://www.mathnet.ru/eng/tvt/v58/i4/p689
    • This publication is cited in the following 29 articles:
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    5. Aiyah S. Noori, Nisreen kh. Abdalameer, Laith A. Yaaqoob, Uday M. Nayef, Rawaa M. Mohammed, “Pulsed Nd: YAG Laser-assisted Synthesis of Aluminum Oxide Nanoparticles with Clove Extract: Evaluating Their Antibacterial Activity Against Mutant Strain of Streptococcus mutans”, Plasmonics, 2024  crossref
    6. Jingzhou Zhang, Qing Yang, Chengjun Zhang, Haoyu Li, Hualong Zhao, Feng Chen, “A review of liquid metal-based flexible electronics achieved by ultrafast lasers”, Applied Materials Today, 41 (2024), 102505  crossref
    7. Pradeep Bhatia, Sudesh Sharma, Sushil Kumar, Chandra S. Yelleswarapu, “Effect of Shell Materials on Liquid Cs-Core for Optical and Thermoplasmonic Characteristics: A Simulation Approach”, Plasmonics, 2024  crossref
    8. Lizhi Wu, Jinle Cao, Jingyuan Zhang, Jingwei Zeng, Yue Pan, “Influences of Infrared Dye Content and Laser Energy Density on Laser Propulsion Performance of ADN-Based Liquid Propellants”, Micromachines, 16:1 (2024), 59  crossref
    9. N. E. Efimov, D. N. Sinelnikov, M. V. Grishaev, Yu. M. Gasparyan, S. A. Krat, I. A. Sorokin, “Analysis of Craters in Tungsten Films Irradiated with Picosecond Laser Pulses for Laser-Assisted Surface Diagnostics”, Phys. Atom. Nuclei, 87:12 (2024), 1899  crossref
    10. K. V. Khishchenko, “Equation of state for aluminum at high pressures”, High Temperature, 61:3 (2023), 440–443  mathnet  mathnet  crossref  crossref
    11. A. A. NASTULYAVICHUS, S. I. KUDRYASHOV, A. M. EMELYANENKO, L. B. L. B. BOINOVICH, “LASER GENERATION OF COLLOIDAL NANOPARTICLES IN LIQUIDS: KEY PROCESSES OF LASER DISPERSION AND MAIN CHARACTERISTICS OF NANOPARTICLES”, Kolloidnyi zhurnal, 85:2 (2023), 200  crossref
    12. Negar Motakef-Kazemi, Fereydoon Ataei, Davoud Dorranian, “Synthesis and evaluation of copper–imidazole MOF nanostructures and its graphene nanocomposites by pulsed laser ablation method in liquid”, Opt Quant Electron, 55:10 (2023)  crossref
    13. Jinle Cao, Haichao Cui, Yongzan Zheng, Yue Pan, Jingyuan Zhang, Lizhi Wu, Bin Zhou, Yinghua Ye, Ruiqi Shen, “Effect of absorption depth on chemical energy release from laser ablation of ADN-based liquid propellants”, Acta Astronautica, 204 (2023), 116  crossref
    14. Ebenezer Owusu-Ansah, Colin Dalton, “Femtosecond Laser Machining of an X-ray Mask in a 500 Micron-Thick Tungsten Sheet”, Micromachines, 14:11 (2023), 2071  crossref
    15. D. N. Sadovnichii, Yu. M. Milekhin, E. D. Kazakov, M. B. Markov, K. Yu. Sheremet'ev, “Structure formation in syntactic foam based on metal-coated glass microspheres and polysiloxane under the action of a nanosecond relativistic electron beam”, Russ Chem Bull, 72:9 (2023), 2048  crossref
    16. Dmitriy Glushkov, Kristina Paushkina, Andrey Pleshko, Ilya Zykov, Evgeniya Orlova, Dmitriy Feoktistov, “Prospects for the Use of Metal Surfaces Modified by Nanosecond Laser Radiation for Energy Applications”, Energies, 16:24 (2023), 7979  crossref
    17. Pranjal Srivastava, Manikandan M, Jagadeesha T, 2023 First International Conference on Advances in Electrical, Electronics and Computational Intelligence (ICAEECI), 2023, 1  crossref
    18. Yoshihiro Takeda, Namiki Toyama, Kazuhiro Egashira, “Structural characterization of Au clusters deposited in the pores of the zeolite H-ZSM-5 using pulsed laser ablation in liquid”, Surface Science, 728 (2023), 122199  crossref
    19. A. A. Nastulyavichus, S. I. Kudryashov, A. M. Emelyanenko, L. B. Boinovich, “Laser Generation of Colloidal Nanoparticles in Liquids: Key Processes of Laser Dispersion and Main Characteristics of Nanoparticles”, Colloid J, 85:2 (2023), 233  crossref
    20. Jingxiang Gao, Yongzhi Cao, Kaijie Wang, Yaowen Cui, Lihua Lu, Yongda Yan, Zhenjiang Hu, “Research on the stray light protection functional film characteristics: laser parameter correlation with irradiation damage”, J Mater Sci, 58:20 (2023), 8426  crossref
    Citing articles in Google Scholar: Russian citations, English citations
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