Nonlinear Optical Functions in Crystalline and Amorphous Silicon-on-Insulator Nanowires | Zendy

Roel Baets | Zendy; Bart Kuyken | Zendy; X. Liu | Zendy; Stéphane Clemmen | Zendy; Shankar Kumar Selvaraja | Zendy; Wim Bogaerts | Zendy; Dries Van Thourhout | Zendy; H. Ji | Zendy; Hao Hu | Zendy; M. Pu | Zendy; Michael Galili | Zendy; P. Jeppesen | Zendy; L.K Oxenluwe | Zendy; Richard M. Osgood | Zendy; Philippe Emplit | Zendy; Serge Massar | Zendy; Yu. A. Vlasov | Zendy; W. M. J. Green | Zendy; Günther Roelkens | Zendy

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Nonlinear Optical Functions in Crystalline and Amorphous Silicon-on-Insulator Nanowires

Author(s) -

Roel Baets,

Bart Kuyken,

X. Liu,

Stéphane Clemmen,

Shankar Kumar Selvaraja,

Wim Bogaerts,

Dries Van Thourhout,

H. Ji,

Hao Hu,

M. Pu,

Michael Galili,

P. Jeppesen,

L.K Oxenluwe,

Richard M. Osgood,

Philippe Emplit,

Serge Massar,

Yu. A. Vlasov,

W. M. J. Green,

Günther Roelkens

Publication year - 2012

Publication title -

optical fiber communication conference

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1364/ofc.2012.om2j.7

Subject(s) - nanowire , materials science , optoelectronics , amorphous silicon , silicon on insulator , silicon nanowires , silicon , amorphous solid , wavelength , nonlinear optics , optics , crystalline silicon , physics , crystallography , laser , chemistry

Silicon-on-Insulator nanowires provide an excellent platform for nonlinear optical functions in spite of the two-photon absorption at telecom wavelengths. Work on both crystalline and amorphous silicon nanowires is reviewed, in the wavelength range of 1.5 to 2.5 μm.

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