3D fabrication by moving mask deep X-ray lithography (M/sup 2/DXL) with multiple stages

Author

Tabata, O. ; Matsuzuka, N. ; Yamaji, T. ; Uemura, S. ; Yamamoto, K.

Author_Institution

Ritsumeikan Univ., Shiga, Japan

fYear

2002

fDate

24-24 Jan. 2002

Firstpage

180

Lastpage

183

Abstract

The final goal of this study is to establish a technology to realize 3-dimensional (3D) microstructures with free shaped walls by synchrotron radiation deep X-ray lithography. In this paper, we present two important advances toward this goal. A reverse approach using the Fourier transform technique to define the optimum X-ray mask movement pattern is improved and applied to V-grooved microstructure fabrication. A new X-ray exposure system that combines the moving mask deep X-ray lithography technique (M/sup 2/DXL) and multiple stages is developed and the system performance confirmed.

Keywords

Fourier transforms; X-ray lithography; X-ray masks; X-ray optics; micromechanical devices; 3D fabrication; Fourier transform technique; MEMS; V-grooved microstructure fabrication; X-ray exposure system; free shaped wall; moving mask deep X-ray lithography; multiple stages; optimum X-ray mask movement pattern; reverse approach; synchrotron radiation deep X-ray lithography; three-dimensional microstructures; Controllability; Fabrication; Micromechanical devices; Microstructure; Resists; Shape control; Synchrotrons; System performance; Velocity control; X-ray lithography;

fLanguage

English

Publisher

ieee

Conference_Titel

Micro Electro Mechanical Systems, 2002. The Fifteenth IEEE International Conference on

Conference_Location

Las Vegas, NV, USA

ISSN

1084-6999

Print_ISBN

0-7803-7185-2

Type

conf

DOI

10.1109/MEMSYS.2002.984234

Filename

984234