DocumentCode :
1343748
Title :
Design and Performance of MEMS Multifunction Optical Device Using a Combined In-Plane and Out-of-Plane Motion of Dual-Slope Mirror
Author :
Chen, Q.H. ; Wu, W.G. ; Wang, Z.Q. ; Yan, G.Z. ; Hao, Y.L.
Author_Institution :
Inst. of Microelectron., Peking Univ., Beijing, China
Volume :
28
Issue :
24
fYear :
2010
Firstpage :
3589
Lastpage :
3598
Abstract :
A reflection-type MEMS multifunction-integrated optical device using the combined in-plane and out-of-plane motion of a dual-slope mirror is proposed. The motion of the mirrors results in the corresponding optical axis offsets in the transmitting and receiving optical signals, which can enable the device with variable optical power splitting, optical switching and variable optical attenuating functions. The optical models for splitting and attenuating are presented, respectively. The electro-mechanical characteristics of the device are also investigated. Measurements of the fabricated devices show that the switching times is less than 9 ms. The excess loss of the device is less than 3 dB and the controllable attenuation range is up to 39 dB, respectively. Moreover, polarization-dependent loss is less than 0.7 dB in the whole attenuation and splitting range.
Keywords :
integrated optics; light polarisation; light reflection; light transmission; micro-optomechanical devices; mirrors; optical attenuators; optical beam splitters; optical design techniques; optical losses; optical switches; dual-slope mirror; electromechanical characteristics; in-plane mirror motion; optical design; optical model; optical power splitting; optical signal reception; optical signal transmission; optical switching; out-of-plane mirror motion; polarization-dependent loss; reflection-type MEMS multifunction-integrated optical device; variable optical attenuating functions; Mirrors; Optical attenuators; Optical fiber devices; Optical fibers; Optical reflection; Microelectromechanical systems (MEMS); multifunctional device; optical power splitter; optical switch (OS); variable optical attenuator (VOA);
fLanguage :
English
Journal_Title :
Lightwave Technology, Journal of
Publisher :
ieee
ISSN :
0733-8724
Type :
jour
DOI :
10.1109/JLT.2010.2084290
Filename :
5594981
Link To Document :
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