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Proceedings Paper

Chalcogenide glass waveguides in etched silica cladding (Conference Presentation)
Author(s): Moshe Katzman; Dvir Munk; Mirit Hen; Arik Bergman; Mark Oksman; Yuri Kaganovskii; Michael Rosenbluh; Avinoam Zadok

Paper Abstract

Chalcogenide glasses (ChGs) exhibit high refractive indices, broad transparency windows, pronounced nonlinearities, and photo-sensitivity effects. Waveguides are fabricated in ChGs layers using dry etching, nano-imprint lithography, or direct laser-beam writing. Ultra-high stimulated Brillouin scattering amplification was demonstrated in ChG waveguides. Efficient Brillouin scattering requires tight confinement of guided optical and acoustic modes with large overlap. Here we present waveguides consisted of a ChG core and silica cladding. Devices are fabricated in silica-on-silicon wafers. The silica layer is dry-etched through a Cr hard mask. Etching defines either isolated trenches or isolated pedestals in the silica layer, with widths of 1-3 µm and heights between 0.5-2 µm. A 300 nm-thick layer of As2S3 glass is deposited onto the sample by thermal evaporation. Deposition partially fills the etched silica trenches with a ChG core region, or alternatively forms a core region on top of silica pedestals with air on three sides. A thin upper layer of resist is applied for protection. The waveguide structure provides two potential advantages: tight confinement of both guided optical and acoustic modes in small-area ChG cores, and no processing of the ChG layer following deposition. The end-to-end losses of a 4 mm-long device with a 600 nm-wide core were 20 dB. Losses are primarily due to coupling to/from fibers at the facets. Four-wave mixing between two continuous-wave pumps of 10 mW power was demonstrated, with efficiency on the order of -60 dB. The linear and nonlinear characterization of longer devices is ongoing.

Paper Details

Date Published: 14 March 2018
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Proc. SPIE 10535, Integrated Optics: Devices, Materials, and Technologies XXII, 105350A (14 March 2018); doi: 10.1117/12.2293344
Show Author Affiliations
Moshe Katzman, Bar-Ilan Univ. (Israel)
Dvir Munk, Bar-Ilan Univ. (Israel)
Mirit Hen, Bar-Ilan Univ. (Israel)
Arik Bergman, Bar-Ilan Univ. (Israel)
Mark Oksman, Bar-Ilan Univ. (Israel)
Yuri Kaganovskii, Bar-Ilan Univ. (Israel)
Michael Rosenbluh, Bar-Ilan Univ. (Israel)
Avinoam Zadok, Bar-Ilan Univ. (Israel)


Published in SPIE Proceedings Vol. 10535:
Integrated Optics: Devices, Materials, and Technologies XXII
Sonia M. García-Blanco; Pavel Cheben, Editor(s)

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