Nanoimprint Fabrication and Thermal Behavior of Atomically Ultrasmooth Glass Substrates with 0.2-nm-Height Steps

Nanoimprint Fabrication and Thermal Behavior of Atomically Ultrasmooth Glass Substrates with 0.2-nm-Height Steps

We examined the conditions for the development of atomically stepped ultrasmooth surfaces on commercial silicate glass substrates by the thermal nanoimprint technique using sapphire ($\alpha$-Al 2 O 3 single crystal) molds with 0.2-nm-height atomic steps. Under the pressing conditions of 3 MPa, 300...

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Veröffentlicht in:Japanese Journal of Applied Physics 2011-07, Vol.50 (7), p.078002-078002-2
Hauptverfasser: Miyake, Yumiko, Akita, Yasuyuki, Oi, Hideo, Mita, Masahiro, Kaneko, Satoru, Koyama, Kohji, Sunagawa, Kazuhiko, Tada, Kazuhiro, Hirai, Yoshihiko, Yoshimoto, Mamoru
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container_issue 7
container_start_page 078002
container_title Japanese Journal of Applied Physics
container_volume 50
creator Miyake, Yumiko
Akita, Yasuyuki
Oi, Hideo
Mita, Masahiro
Kaneko, Satoru
Koyama, Kohji
Sunagawa, Kazuhiko
Tada, Kazuhiro
Hirai, Yoshihiko
Yoshimoto, Mamoru
description We examined the conditions for the development of atomically stepped ultrasmooth surfaces on commercial silicate glass substrates by the thermal nanoimprint technique using sapphire ($\alpha$-Al 2 O 3 single crystal) molds with 0.2-nm-height atomic steps. Under the pressing conditions of 3 MPa, 300 s, and 610 °C for imprinting, a 0.2-nm-high stepped and atomically ultrasmooth terraced surface could be formed on soda-lime silicate glass substrates having the glass transition temperature of 521 °C. We found that the 0.2-nm-height step structure of the imprinted glass surface disappeared after annealing at 490 °C, and the smoothness of the terrace increased.
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title Nanoimprint Fabrication and Thermal Behavior of Atomically Ultrasmooth Glass Substrates with 0.2-nm-Height Steps
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