Yuqiang Tu scite author profile

Yuqiang Tu

5Publications

35Citation Statements Received

32Citation Statements Given

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Affiliations

China National Offshore Oil Corporation (China), Simon Fraser University, Benchmark Research (United States)

Publications

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Creating direct-write gray-scale photomasks with bimetallic thin film thermal resists

Chapman

Dykes

et al. 2003

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New types of analog gray-scale laser direct-write masks have been created using bimetallic thermal resists and a directwrite laser process. Bimetallic resists consist of two layers of thin films, eg. Bi over In or Sn over In, which react to form a low temperature alloy when a laser raises the films above the eutectic temperature. Depending on the exposure energy, resulting alloyed layers appear to become oxides, causing a change of absorption at 365nm from >3OD to <0.3OD. The thermal resists show near wavelength invariance from IR to UV. The Sn/In films, each layer ~40 nm thick, were DCsputtered onto glass slides or quartz substrates. To make gray-scale photomasks the samples were placed on a computercontrolled high accuracy X-Y table. A bitmap gray-scale pattern was raster-scanned with a CW Argon laser (514 nm) beam. An optical shutter controlled the actual laser power applied onto the thermal resist film according to the gray-scale value. When exposed to a laser beam greater than 0.6 W, the Sn/In film became nearly transparent (0.22OD) at I-line (365nm) wavelength. Sn/In and Bi/In photomasks have been used together with a standard mask aligner to successfully pattern Shipley SPR2FX-1.3 photoresist. CF 4 /O 2 plasma etching has been used to transfer the three-dimensional pattern to SiO 2 and Si substrates. Also a 160 beam laser diode thermal imaging tool was used to create BiIn direct-write binary masks.

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Wavelength-Invariant Resist Composed of Bimetallic Layers

Karimi

Morawej

et al. 2002

MRS Proc.

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Two layer co-sputtered Bi over In thin films (40 nm/layer) act as a microfabrication resist with many potential applications. Their physical, chemical and optical characteristics change after laser exposures that produce a rapid thermal anneal in selected areas. Unlike organic photoresists, Bi/In is a bimetallic thermal resist whose sensitivity shows a near wavelength invariance for wavelengths from Near IR to UV. The laser-induced patterns are developed by an etch that selectively removes unexposed areas and retains converted ones. The optical density (OD) of 40 nm thick Bi/In films on quartz substrates, for example, changes from 3.3 OD to 0.37 OD in the annealed area. This has enabled the creation of direct-write photomasks for standard photoresist exposures. In this paper, the composition, morphology, and nanostructure of the resist before and after laser processing were studied in order to determine the mechanism of the laser-induced material conversion. AFM, XRD, and TEM show that the as-deposited films are polycrystalline, continuous, but with a rough, island morphology. Furnace anneals in air above the eutectic temperature (150–250°C, 3 hours) result in the formation of the tetragonal phase BiIn with a small degree of oxidation. The island morphology is maintained but there is evidence of melting and recrystallization. Transparency is much lower than after laser annealing. RBS and NRA depth profile analysis show that Bi/In films exposed to laser annealing in air contain a large fraction of oxygen and suggest that the converted film may be a BiIn0.6O6 /Bi0.3InO6 bilayer.

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Benefit evaluation for ocean engineering based on grey Euclid model of game compromise

2018

Cluster Comput

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

Chapman¹,

Tu²,

Choo³

et al. 2006

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Bi/In thermal resist for both Si anisotropic wet etching and Si/SiO 2 plasma etching

Chapman

Peng

2004

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Yuqiang Tu

Creating direct-write gray-scale photomasks with bimetallic thin film thermal resists

Wavelength-Invariant Resist Composed of Bimetallic Layers

Benefit evaluation for ocean engineering based on grey Euclid model of game compromise

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

Bi/In thermal resist for both Si anisotropic wet etching and Si/SiO 2 plasma etching

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