用超快激光加工生产材料的挑战

IF 2.3 Q2 OPTICS
R. Weber, T. Graf
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引用次数: 5

摘要

摘要利用脉冲持续时间在约100fs至10ps之间的超快激光器进行材料加工,能够实现非常有前景和新兴的高科技应用。此外,这种激光器的平均功率正在稳步增加;多千瓦系统已经在实验室中进行了演示,并将在未来几年内投入市场,从而显著提高生产力。然而,由于基本的物理限制,超快激光工艺在应用中的实施非常具有挑战性。本文将讨论其主要局限性。这些限制包括由物理材料特性(如消融深度和最佳注量)、处理参数(如空气击穿和热量积聚)、处理系统(如热焦点偏移)以及由于软X射线的潜在发射而产生的法律法规造成的限制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The challenges of productive materials processing with ultrafast lasers
Abstract Materials processing with ultrafast lasers with pulse durations in the range between about 100 fs and 10 ps enable very promising and emerging high-tech applications. Moreover, the average power of such lasers is steadily increasing; multi kilowatt systems have been demonstrated in laboratories and will be ready for the market in the next few years, allowing a significantly increase in productivity. However, the implementation of ultrafast laser processes in applications is very challenging due to fundamental physical limitations. In this paper, the main limitations will be discussed. These include limitations resulting from the physical material properties such as the ablation depth and the optimal fluence, from processing parameters such as air-breakdown and heat accumulation, from the processing system such as thermal focus shift, and from legal regulations due to the potential emission of soft X-rays.
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来源期刊
CiteScore
4.40
自引率
0.00%
发文量
23
期刊介绍: Advanced Optical Technologies is a strictly peer-reviewed scientific journal. The major aim of Advanced Optical Technologies is to publish recent progress in the fields of optical design, optical engineering, and optical manufacturing. Advanced Optical Technologies has a main focus on applied research and addresses scientists as well as experts in industrial research and development. Advanced Optical Technologies partners with the European Optical Society (EOS). All its 4.500+ members have free online access to the journal through their EOS member account. Topics: Optical design, Lithography, Opto-mechanical engineering, Illumination and lighting technology, Precision fabrication, Image sensor devices, Optical materials (polymer based, inorganic, crystalline/amorphous), Optical instruments in life science (biology, medicine, laboratories), Optical metrology, Optics in aerospace/defense, Simulation, interdisciplinary, Optics for astronomy, Standards, Consumer optics, Optical coatings.
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