Silicon micromachined hollow optical waveguides for sensing applications

Author

Bernini, Romeo ; Campopiano, Stefania ; Zeni, Luigi

Author_Institution

CNR-IREA, Napoli, Italy

Volume

8

Issue

1

fYear

2002

Firstpage

106

Lastpage

110

Abstract

Novel micromachined optical waveguides useful for sensing applications are proposed. The waveguide is designed as hollow-core antiresonant reflecting optical waveguide (ARROW) and can be easily fabricated using standard silicon micromachining techniques. The hollow structure permits to use the core to confine simultaneously the light and the substance to be probed, leading to an increase of the interaction efficiency. Numerical simulations, performed using finite element method technique, show that with a suitable design these waveguides can be used in sensing applications, where the substances under test can be gases or liquids

Keywords

finite element analysis; gas sensors; micro-optics; micromachining; optical design techniques; optical fabrication; optical sensors; optical waveguide theory; silicon; ARROW; Si; Si micromachined hollow optical waveguides; finite element method; gas sensors; gases; hollow structure; hollow-core antiresonant reflecting optical waveguide; interaction efficiency; liquid sensors; liquids; micromachined optical waveguides; numerical simulations; optical design; optical sensors; sensing applications; silicon micromachined hollow optical waveguides; standard silicon micromachining techniques; Finite element methods; Hollow waveguides; Micromachining; Numerical simulation; Optical design; Optical design techniques; Optical sensors; Optical waveguides; Performance evaluation; Silicon;

fLanguage

English

Journal_Title

Selected Topics in Quantum Electronics, IEEE Journal of

Publisher

ieee

ISSN

1077-260X

Type

jour

DOI

10.1109/2944.991405

Filename

991405