High-aspect-ratio microdrilling in polymeric materials with intense KrF laser radiation

被引:13
|
作者
S. Lazare
J. Lopez
F. Weisbuch
机构
[1] Laboratoire de Physicochimie Moléculaire (LPCM),
[2] UMR 5803 du CNRS,undefined
[3] Université de Bordeaux 1,undefined
[4] 351 cours de la Libération,undefined
[5] 33405 Talence,undefined
[6] France (Fax: +33-5/5684-6645,undefined
[7] E-mail: lazare@frbdx11.cribx1.u-bordeaux.fr),undefined
来源
Applied Physics A | 1999年 / 69卷 / Suppl 1期
关键词
PACS: 81.05.Lg; 81.65.Cf; 79.20.Ds;
D O I
10.1007/s003399900218
中图分类号
学科分类号
摘要
UV laser microdrilling of high-aspect-ratio holes has been studied by using an intense beam with a low numerical aperture (KrF laser). The UV laser ablation produces a minimum of thermal or mechanical damage on the target. Under some particular experimental conditions (many high-fluence pulses), it is shown that long deep holes are obtained with reproducible aspect ratio (up to Φ/d≈600) in a variety of materials. Experiments with polymers (PMMA, PC, PET, PI, PS, PEEK) show that the more absorbing the polymer is, the better the resolution. However highly absorbing materials exhibit a low ablation rate. These promising results on laser microdrilling can be extended to new applications, for example, when the beam/target relative movement is computer driven. For instance this approach can be applied to cutting micro-objects with complicated shape or to machining fragile or brittle materials.
引用
收藏
页码:S1 / S6
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