Design and fabrication of a circular Digital Variable Optical Attenuator

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Date
2004-08-16
Authors
Sun, Winston
Mughal, M. Junaid
Perez, Frank
Riza, Nabeel A.
Noell, Wilfried
de Rooij, Nicolaas F.
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Society of Photo-Optical Instrumentation Engineers (SPIE)
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Abstract
The second generation circular digital variable optical attenuator (CDVOA) with an effective area of 1500 μm diameter has been designed and fabricated based on SOI technology. C-band incoming Gaussian light can be reflected to an outgoing fiber from a shiny circular area, which is divided into sectors that can be individually tilted and addressed electrostatically to achieve variable light attenuation. Using a delay mask process, each movable component i) has an underlying ridge frame to maintain flatness, ii) is suspended by two micro beams at a bridge structure that connects to a handle where aluminum electrode is located underneath, and iii) is separated by wall structures at the handle area to reduce crosstalk from adjacent electrodes. Critical fabrication processes including the mirror and chip release are performed using a HF vapor phase etcher. Fluidic pressure and chip-dicing shocks are avoided. Initial results show that a mirror sector suspended by two 345 μm long beams with a cross-section of about 5×5 μm2 can be tilted to 2.8° at about 18 V driving voltage. Initial interferometric measurement gives estimated individual mirror flatness after metallic reflective coating to be about λ/15. The assembled chips are ready for further testing and characterization.
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Keywords
Mirrors , Electrodes , Semiconducting wafers , Oxides , Quartz , Deep reactive ion etching , Signal attenuation
Citation
Sun, W., Mughal, M. J., Perez, F., Riza, N. A., Noell, W. and de Rooij, N. F. (2004) 'Design and fabrication of a circular Digital Variable Optical Attenuator' Photonics Europe Conf. on MEMS, MOEMS and Micromachinging, Proceedings of SPIE 5455, MEMS, MOEMS, and Micromachining, Photonics Europe, Strasbourg, France. doi: 10.1117/12.544997
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© 2004 Society of Photo-Optical Instrumentation Engineers (SPIE). One print or electronic copy may be made for personal use only. Systematic reproduction and distribution, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper are prohibited.