Atomistic simulations of ultra-short pulse laser ablation of aluminum: validity of the Lambert-Beer law

Atomistic simulations of ultra-short pulse laser ablation of aluminum: validity of the... AbstractBased on hybrid molecular dynamics/two-temperature simulations, we study the validity of the application of Lambert-Beer’s law, which is conveniently used in various modeling approaches of ultra-short pulse laser ablation of metals. The method is compared to a more rigorous treatment, which involves solving the Helmholtz wave equation for different pulse durations ranging from 100 fs to 5 ps and a wavelength of 800 nm. Our simulations show a growing agreement with increasing pulse durations, and we provide appropriate optical parameters for all investigated pulse durations. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Advanced Optical Technologies de Gruyter

Atomistic simulations of ultra-short pulse laser ablation of aluminum: validity of the Lambert-Beer law

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Publisher
de Gruyter
Copyright
©2018 THOSS Media & De Gruyter, Berlin/Boston
ISSN
2192-8584
eISSN
2192-8584
D.O.I.
10.1515/aot-2018-0005
Publisher site
See Article on Publisher Site

Abstract

AbstractBased on hybrid molecular dynamics/two-temperature simulations, we study the validity of the application of Lambert-Beer’s law, which is conveniently used in various modeling approaches of ultra-short pulse laser ablation of metals. The method is compared to a more rigorous treatment, which involves solving the Helmholtz wave equation for different pulse durations ranging from 100 fs to 5 ps and a wavelength of 800 nm. Our simulations show a growing agreement with increasing pulse durations, and we provide appropriate optical parameters for all investigated pulse durations.

Journal

Advanced Optical Technologiesde Gruyter

Published: May 24, 2018

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