Optical waveguide

A waveguide and methods for manufacture can include a silicon wafer and a silicon substrate on the wafer that can be patterned into a silicon waveguide. A cladding can be deposited on the wafer and that waveguide using a plasma enhanced chemical vapor deposition (PECVD) process. When a PECVD process...

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Bibliographic Details
Main Authors Ptasinski, Joanna N, Russell, Stephen D
Format Patent
LanguageEnglish
Published 25.02.2020
Subjects
OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS
OPTICS
PHYSICS
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Summary:A waveguide and methods for manufacture can include a silicon wafer and a silicon substrate on the wafer that can be patterned into a silicon waveguide. A cladding can be deposited on the wafer and that waveguide using a plasma enhanced chemical vapor deposition (PECVD) process. When a PECVD process is used, the cladding portions that are in contact with that waveguide and in the immediate vicinity can have a lower density, and a lower refractive index n of less than (n<1.3). The lower uniform cladding refractive index can be uniform from the waveguide surfaces out to approximately one micrometer from the waveguide. This can further in result in an increased difference between the refractive index of the silicon waveguide and the adjacent lower refractive index cladding portions, which can further result in greater light confinement within the waveguide (i.e. reduced losses during transmission).
Bibliography:Application Number: US201816034524