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9 August 1983 High-Performance Thin Film Transistors In CO2 Laser Crystallized Silicon On Quartz
A. Chiang, W. P. Meuli, N. M. Johnson, M. H. Zarzycki
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Proceedings Volume 0385, Laser Processing of Semiconductor Devices; (1983) https://doi.org/10.1117/12.934957
Event: 1983 Los Angeles Technical Symposium, 1983, Los Angeles, United States
Abstract
High performance thin-film transistors (TFTs) have been fabricated in single-crystal silicon thin films on fused quartz substrates. The single-crystal islands for device fabrication are produced from patterned and encapsulated polysilicon films crystallized with a scanning CO2 laser. We have previously reported on metal-gate n-channel enhancement mode TFTs with channel mobilities > 900 cm2/V-s, leakage currents < 10 pA, and voltage thresholds < 1 V. In this paper, we will report for the first time our work on depletion mode as well as enhancement mode devices fabricated with a polysilicon-gate NMOS process. These devices have channel lengths of 6 to 20 µm. Channel mobilities of > 900 cm2/V-s are again indicative of single-crystal islands. Leakage currents of ~ 1 pA are achieved by back channel ion implantation. Voltage thresholds vary by < 0.3 V, and the yield for working devices is 98%. The results anticipate the achievement of a high-performance integrated SOI circuit technology.
© (1983) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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A. Chiang, W. P. Meuli, N. M. Johnson, and M. H. Zarzycki "High-Performance Thin Film Transistors In CO2 Laser Crystallized Silicon On Quartz", Proc. SPIE 0385, Laser Processing of Semiconductor Devices, (9 August 1983); https://doi.org/10.1117/12.934957
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KEYWORDS
Silicon
Laser crystals
Crystals
Transistors
Semiconductor lasers
Silicon films
Metals
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