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7 June 2006 Advanced laser micromachining processes for MEMS and optical applications
Andrew S. Holmes, James E. A. Pedder, Karl L. Boehlen
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Proceedings Volume 6261, High-Power Laser Ablation VI; 62611E (2006) https://doi.org/10.1117/12.682929
Event: High-Power Laser Ablation 2006, 2006, Taos, NM, United States
Abstract
Laser micromachining has great potential as a MEMS (micro-electro-mechanical systems) fabrication technique because of its materials flexibility and 3D capabilities. The machining of deep polymer structures with complex, well-defined surface profiles is particularly relevant to microfluidics and micro-optics, and in this paper we review recent work on the use of projection ablation methods to fabricate structures and devices aimed at these application areas. In particular we focus on two excimer laser micromachining techniques that are capable of both 3D structuring and large-area machining: synchronous image scanning (SIS) and workpiece dragging with half-tone masks. The methods used in mask design are reviewed, and experimental results are presented for test structures fabricated in polycarbonate. Both techniques are shown to be capable of producing accurately dimensioned structures that are significantly deeper than the focal depth of the projection optics and virtually free from fabrication artifacts such as the steps normally associated with multiple-mask processes.
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Andrew S. Holmes, James E. A. Pedder, and Karl L. Boehlen "Advanced laser micromachining processes for MEMS and optical applications", Proc. SPIE 6261, High-Power Laser Ablation VI, 62611E (7 June 2006); https://doi.org/10.1117/12.682929
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Cited by 14 scholarly publications.
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KEYWORDS
Micromachining
Laser ablation
Microelectromechanical systems
Surface finishing
Excimer lasers
Critical dimension metrology
Photomasks
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