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Proceedings Paper

Advances in thin film photonics: materials, science, and technology
Author(s): Charles M. Fortmann; Ronald J. Tonucci; Wayne A. Anderson; C. W. Teplin; A. Harv Mahan
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Paper Abstract

Control of refractive index in amorphous silicon materials is investigated. Elementary waveguide structures were prepared on two micron thick amorphous silicon by photon lithographic patterning of a silver masking layer. Hydrogen was implanted at fluence of ~5×1017 cm2 for three energies, 50, 100 and 175 KeV yielding a total does of ~1.5×1018 cm2 consistent with a 10% increase in atoms due to the hydrogen addition. The optical properties of the implanted and non-implanted regions were probed as a function of low temperature annealing. The optical band gap shift to higher energy was consistent with hydrogen addition. Some darkening, absorption increase, were noted on the implanted regions. However, low temperature annealing is known to remove dangling bond damage in amorphous silicon. Prospects of utilizing these waveguides to probe light induced optical changes in amorphous silicon is described as well as the prospects of more advanced devices.

Paper Details

Date Published: 21 October 2003
PDF: 10 pages
Proc. SPIE 5206, Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications IX, (21 October 2003); doi: 10.1117/12.509490
Show Author Affiliations
Charles M. Fortmann, Stony Brook Univ. (United States)
Ronald J. Tonucci, Naval Research Lab. (United States)
Wayne A. Anderson, Univ. at Buffalo (United States)
C. W. Teplin, National Renewable Energy Lab. (United States)
A. Harv Mahan, National Renewable Energy Lab. (United States)


Published in SPIE Proceedings Vol. 5206:
Photorefractive Fiber and Crystal Devices: Materials, Optical Properties, and Applications IX
Francis T. S. Yu; Ruyan Guo; Shizhuo Yin, Editor(s)

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