Chinheng Choo scite author profile

Bimetallic thin films were previously shown to create laser direct write binary and analog gray scale photomasks. DCsputtered Sn/In (5at.% Sn, 80 nm) oxidize under laser exposure, modifying the optical density at 365 nm from >3OD to <0.22OD. Bimetallic Sn/In thin film grayscale photomasks have been successfully used to create concave and convex 3D structures using mask aligners with Shipley photoresists. To produce precise 3D structures in the organic photoresists, every mask making step was studied. Compensations during the mask making process were necessary because that the relationship between the optical density of the exposed bimetallic films and the laser writing power is not accurately linear, and also that the response of the photoresists is not linear to the exposure. V-grooves with straight slope profile were produced with calibrations taken into account. X-ray diffraction analysis indicates that structure of laser exposed Sn/In bimetallic films is similar to that of ITO films, suggesting new directions for improvement of bimetallic film optical properties, and that the theoretical maximum transmission should approach pure ITO's ~0.05OD in the visible wavelength.

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Real-time optical characterization of laser oxidation process in bimetallic direct write gray scale photomasks

Poon

Chapman

Choo

et al. 2006

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Thermal Characterization of LEDs Mounted on Substrates With Converging–Diverging and Diverging–Converging Channels

Chakravarthii

Devarajan

Suvindraj

et al. 2017

IEEE Trans. Electron Devices

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Chinheng Choo

Creation of embedded structures in SU-8

Laser-induced oxidation of metallic thin films as a method for creating grayscale photomasks

Calibrating grayscale direct write bimetallic photomasks to create 3D photoresist structures

Real-time optical characterization of laser oxidation process in bimetallic direct write gray scale photomasks

Thermal Characterization of LEDs Mounted on Substrates With Converging–Diverging and Diverging–Converging Channels

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