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Proceedings Paper

Wavelength tunable MEMS VCSELs for OCT imaging
Author(s): Hitesh Kumar Sahoo; Thor Ansbæk; Luisa Ottaviano; Elizaveta Semenova; Ole Hansen; Kresten Yvind
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Paper Abstract

MEMS VCSELs are one of the most promising swept source (SS) lasers for optical coherence tomography (OCT) and one of the best candidates for future integration with endoscopes, surgical probes and achieving an integrated OCT system. However, the current MEMS-based SS are processed on the III-V wafers, which are small, expensive and challenging to work with. Furthermore, the actuating part, i.e., the MEMS, is on the top of the structure which causes a strong dependence on packaging to decrease its sensitivity to the operating environment. This work addresses these design drawbacks and proposes a novel design framework. The proposed device uses a high contrast grating mirror on a Si MEMS stage as the bottom mirror, all of which is defined in an SOI wafer. The SOI wafer is then bonded to an InP III-V wafer with the desired active layers, thereby sealing the MEMS. Finally, the top mirror, a dielectric DBR (7 pairs of TiO2 - SiO2), is deposited on top. The new device is based on a silicon substrate with MEMS defined on a silicon membrane in an enclosed cavity. Thus the device is much more robust than the existing MEMS VCSELs. This design also enables either a two-way actuation on the MEMS or a smaller optical cavity (pull-away design), i.e., wider FSR (Free Spectral Range) to increase the wavelength sweep. Fabrication of the proposed device is outlined and the results of device characterization are reported.

Paper Details

Date Published: 19 February 2018
PDF: 6 pages
Proc. SPIE 10552, Vertical-Cavity Surface-Emitting Lasers XXII, 105520I (19 February 2018);
Show Author Affiliations
Hitesh Kumar Sahoo, DTU Fotonik (Denmark)
Thor Ansbæk, OCTLIGHT ApS (Denmark)
Luisa Ottaviano, DTU Fotonik (Denmark)
Elizaveta Semenova, DTU Fotonik (Denmark)
Ole Hansen, DTU Nanotech (Denmark)
Kresten Yvind, DTU Fotonik (Denmark)

Published in SPIE Proceedings Vol. 10552:
Vertical-Cavity Surface-Emitting Lasers XXII
Chun Lei; Kent D. Choquette, Editor(s)

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