Journal
OPTICAL MATERIALS EXPRESS
Volume 12, Issue 2, Pages 606-621Publisher
OPTICAL SOC AMER
DOI: 10.1364/OME.447289
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Funding
- Agency for Science, Technology and Research (A*STAR) under the Advanced Manufacturing and Engineering (AME) [A18A7b0058]
- Grantova Agentura Ceske Republiky [19-17997S]
- Ministerstvo Skolstvi, Mladeze a Telovychovy [LM2018103]
- SUTD-MIT International Design Centre
- University of Pardubice
- Ministry of Education Singapore PhD scholarship
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The unique optical properties of phase change materials (PCMs) can be used to develop efficient reconfigurable photonic devices. In this study, we designed, modeled, and compared the performance of programmable 1 x 2 optical couplers based on different PCMs. Among them, Sb2S3-based couplers showed the best overall performance with the lowest insertion losses. By tuning the crystallization, multiple coupling ratios can be reliably programmed into the Sb2S3 directional couplers, allowing for tunable photonic devices.
The unique optical properties of phase change materials (PCMs) can be exploited to develop efficient reconfigurable photonic devices. Here, we design, model, and compare the perthrmance of programmable 1 x 2 optical couplers based on: Ge2Sb2Te5, Ge2Sb2Se4Te1, Sb2Se3, and Sb2S3 PCMs. Once programmed, these devices are passive, which can reduce the overall energy consumed compared to thermo-optic or electro-optic reconfigurable devices. Of all the PCMs studied, our ellipsometry refractive index measurements show that Sb2S3 has the lowest absorption in the telecommunications wavelength band. Moreover, Sb2S3 -based couplers show the best overall performance, with the lowest insertion losses in both the amorphous and crystalline states. We show that by growth crystallization tuning at least four different coupling ratios can be reliably programmed into the Sb2S3 directional couplers. We used this effect to design a 2-bit tuneable Sb2S3 directional coupler with a dynamic range close to 32 dB. The bit-depth of the coupler appears to be limited by the crystallization stochasticity. (C) 2022 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
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