A New Method for Microlens Fabrication by a Heating Encapsulated Air Process

Author

Tsou, Chingfu ; Lin, Chewei

Author_Institution

Dept. of Autom. Control Eng., Feng Chia Univ., Taichung

Volume

18

Issue

23

fYear

2006

Firstpage

2490

Lastpage

2492

Abstract

This letter reports a new method to fabricate thin microlens array on a silicon substrate by a heating encapsulated air process. We use silicon bulk micromachining, wafer-to-wafer bonding, and photoresist (PR) spin coating to achieve the air sealing process. Under a heating process, the PR filled in the micro-through-hole of cap wafer is compressed by the thermal expansion of the sealed air to form a thin microlens with out-of-plane sphere shape. By adjusting the heating temperature and the sealed air volume, the curvature and size of the lens are controllable. A typical microlens with a diameter of 1475 mum and sag height of 486 mum was fabricated. The calculated radius of curvature and focal length are about 800 and 1200 mum, respectively. The fabrication provides an alternative way to manufacture thin microlens or microlens mold serve as master elements for replication

Keywords

bonding processes; encapsulation; heat treatment; microlenses; micromachining; optical arrays; optical fabrication; photoresists; spin coating; thermal expansion; 1475 mum; 486 mum; Si; air sealing process; focal length; heating encapsulated air process; heating process; microlens fabrication; microlens mold; out-of-plane sphere shape; photoresist spin coating; replication; silicon bulk micromachining; silicon substrate; thermal expansion; thin microlens; thin microlens array; wafer-to-wafer bonding; Coatings; Fabrication; Heating; Lenses; Micromachining; Microoptics; Resists; Silicon; Thermal expansion; Wafer bonding; Air; heating; microlens; photoresist (PR);

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2006.887225

Filename

4014253