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Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids

Sarah Dittrich et al · Editorial Office of Opto-Electronic Journals Group, Institute of Optics and Electronics, CAS, China · 2022

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Laser ablation in liquid is a scalable nanoparticle production method with applications in areas like catalysis and biomedicine. Due to laser-liquid interactions, different energy dissipation channels such as absorption by the liquid and scattering at the ablation plume and cavitation bubble lead to reduced laser energy available for nanoparticle production. Ultrashort pulse durations cause unwanted nonlinear effects in the liquid, and for ns pulses, intra-pulse energy deposition attenuation effects are to be expected. However, intermediate pulse durations ranging from hundreds of picoseconds up to one nanosecond have rarely been studied in particular in single-pulse settings. In this study, we explore the pico- to nanosecond pulse duration regimes to find the pulse duration with the highest ablation efficiency. We find that pulse durations around 1–2 ns enable the most efficient laser ablation in liquid since the laser beam shielding by the ablation plume and cavitation bubble sets in only at longer pulse durations. Furthermore, pump-probe microscopy imaging reveals that the plume dynamics in liquids start to differ from plume dynamics in air at about 2 ns after pulse impact.

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APA 7

al, S. D. E. (2022). Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids. https://doi.org/10.29026/oea.2022.210053

MLA

al, Sarah Dittrich et. "Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids." 2022. https://doi.org/10.29026/oea.2022.210053.

Chicago

al, Sarah Dittrich et. 2022. "Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids.". https://doi.org/10.29026/oea.2022.210053.

Harvard

al, S. D. E. 2022, Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids, Editorial Office of Opto-Electronic Journals Group, Institute of Optics and Electronics, CAS, China, available at: https://doi.org/10.29026/oea.2022.210053 [Accessed 29 Jun. 2026].

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Título
Time resolved studies reveal the origin of the unparalleled high efficiency of one nanosecond laser ablation in liquids
Autor / colaboradores
Sarah Dittrich et al
Editorial
Editorial Office of Opto-Electronic Journals Group, Institute of Optics and Electronics, CAS, China
Año de publicación
2022
ISSN
2096-4579
ISSN
2096-4579
Idioma
eng

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