Abstract
Multilayer products made of ultra-Thin layers are widely used in modern science and technology. Laser exposure is used as one of the promising methods of processing such products. In this regard, we study the ablation of a layered target. A physical model is constructed, numerical simulation is performed, and experiments are carried out. The experiments were conducted with two different lasers and various diameters of the focal spot. To estimate the absorbed energy the reflection coefficient was measured. The results of calculations and experiments are consistent with an accuracy of about 10%. This allowed us to refine the model of two-Temperature states and determine the strength of nickel. It is explained why, with an increase in the absorbed fluence, first the upper layer breaks in the multilayer.
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CITATION STYLE
Khokhlov, V. A., Ashitkov, S. I., Inogamov, N. A., Komarov, P. S., Parshikov, A. N., Petrov, Y. V., … Zhakhovsky, V. V. (2021). Laser ablation of a multilayer target with layers of nanometer thickness. In Journal of Physics: Conference Series (Vol. 1787). IOP Publishing Ltd. https://doi.org/10.1088/1742-6596/1787/1/012022
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