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Proceedings Paper

Pulse-width dependency of the fabricating resolution of the two-photon absorption photo-polymerization
Author(s): Hong Jin Kong; Shin Wook Yi; Dong-Yol Yang; Kwang-Sup Lee; Jin-Baek Kim; Tae-woo Lim; Sumin Kim
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Paper Abstract

As an ultrafast laser has recently been developed, this leads to the innovative nanotechnology, the 3-D fabrication of the two-photon absorbed (TPA) photo-polymerization. The 3-D micro/nano structure by this method has a resolution of sub-hundred nm which is much smaller than the diffraction limit. Usually the 3-D polymer micro/nano structure by this method is made by stacking many of a unit polymer structure, so called 'voxel'. The size of the voxel is considered as the fabrication resolution. The size of a voxel, or the fabricating resolution is determined by several fabricating conditions such as the laser output power, the exposure time, the N.A. of the focusing lens, the types of polymerizing material, and the pulse-width. The voxel size due to power, exposure time and NA has been done by many research groups. Although the pulse-width is a very important condition for two-photon absorption, the study of influence on fabricating resolution by the pulse-width has not been done before. Therefore we studied the voxel size under the condition of increasing the pulse-width of the laser. To stretch the pulse-width, a single mode fiber (SMF) has been used. We demonstrated that the voxel lateral size decreased as pulse-width stretched to several picoseconds.

Paper Details

Date Published: 7 March 2007
PDF: 12 pages
Proc. SPIE 6462, Micromachining Technology for Micro-Optics and Nano-Optics V and Microfabrication Process Technology XII, 646202 (7 March 2007); doi: 10.1117/12.701393
Show Author Affiliations
Hong Jin Kong, KAIST (South Korea)
Shin Wook Yi, KAIST (South Korea)
Dong-Yol Yang, KAIST (South Korea)
Kwang-Sup Lee, Hannam Univ. (South Korea)
Jin-Baek Kim, KAIST (South Korea)
Tae-woo Lim, KAIST (South Korea)
Sumin Kim, KAIST (South Korea)

Published in SPIE Proceedings Vol. 6462:
Micromachining Technology for Micro-Optics and Nano-Optics V and Microfabrication Process Technology XII
Mary-Ann Maher; Thomas J. Suleski; Eric G. Johnson; Harold D. Stewart; Jung-Chih Chiao; Gregory P. Nordin, Editor(s)

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