Nanosecond pulse laser scribing using Bessel beam for single shot removal of transparent conductive oxide thin film
Nanosecond
laser Bessel beam scribing on the TCO thin film was investigated to
improve processing precision and robustness of optical system.
Fundamental wave (1064 nm) of Nd:YAG laser was shaped into
high-quality Bessel beam by using novel optical system consisting of
axicons and convex lens. Spatial
FWHM of the beam was only 1.5 lm in the present context, and
significantly precise scribing with minimum width of 2.3 lm was achieved
on 600–700 nm-thick FTO film with electrical isolation.
Furthermore, due to the critically deep focal length of
millimeters-order, robustness on sample positioning was greatly
improved. Additionally, experimental results showed that single shot
removal of entire
film can be achieved using film side irradiation unlike conventional
Gaussian beam. Temperature distribution during the process was
calculated by a numerical model in which we have taken into account
beam propagation inside the film to give comparison with a Gaussian beam
irradiation. The calculation
results showed that only Bessel beam is self-reconstructed behind plasma
shielding so that entire film
can be removed by single shot. Our findings suggest that Bessel beam can
be used for efficient IR scribing
with significantly high quality without selecting substrate material.
| Title: | Nanosecond pulse laser scribing using Bessel beam for single shot removal of transparent conductive oxide thin film |
| Authors: | Kim, Byunggi Iida, Ryoichi Doan, Duc Hong |
| Keywords: | Nanosecond laser scribing Pulsed laser ablation Transparent conductive oxide thin film Bessel beam Self-reconstruction |
| Issue Date: | 2017 |
| Publisher: | PERGAMON-ELSEVIER SCIENCE LTD, THE BOULEVARD, LANGFORD LANE, KIDLINGTON, OXFORD OX5 1GB, ENGLAND |
| Citation: | ISIKNOWLEDGE |
| Abstract: | Nanosecond laser Bessel beam scribing on the TCO thin film was investigated to improve processing precision and robustness of optical system. Fundamental wave (1064 nm) of Nd:YAG laser was shaped into high-quality Bessel beam by using novel optical system consisting of axicons and convex lens. Spatial FWHM of the beam was only 1.5 lm in the present context, and significantly precise scribing with minimum width of 2.3 lm was achieved on 600–700 nm-thick FTO film with electrical isolation. Furthermore, due to the critically deep focal length of millimeters-order, robustness on sample positioning was greatly improved. Additionally, experimental results showed that single shot removal of entire film can be achieved using film side irradiation unlike conventional Gaussian beam. Temperature distribution during the process was calculated by a numerical model in which we have taken into account beam propagation inside the film to give comparison with a Gaussian beam irradiation. The calculation results showed that only Bessel beam is self-reconstructed behind plasma shielding so that entire film can be removed by single shot. Our findings suggest that Bessel beam can be used for efficient IR scribing with significantly high quality without selecting substrate material. |
| Description: | TNS06968 ; INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER Volume: 107 Pages: 829-835 Published: APR 2017 |
| URI: | http://repository.vnu.edu.vn/handle/VNU_123/28150 http://www.sciencedirect.com/science/article/pii/S0017931016317124 |
| ISSN: | 0017-9310 1879-2189 |
| Appears in Collections: | Bài báo của ĐHQGHN trong Web of Science |
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