Cleo 2023 2023
DOI: 10.1364/cleo_at.2023.jw2a.11
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Rewritable Photonic Integrated Circuit with Phase Change Materials

Abstract: We propose a low loss (Sb2S3: 28.7 dB/mm and Sb2Se3: 1.20 dB/mm) rewriteable photonic integrated circuit using phase change materials that is written by nanosecond laser pulses.

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(5 citation statements)
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“…Here, we experimentally demonstrate a low-loss and rewritable PIC platform using laser-written Sb 2 S 3 . A dielectric-assisted waveguide structure 8,26 is used to lower the optical propagation loss while enhancing the endurance and reliability of PCMs. We first demonstrate arbitrary patterning on the PCM canvas with a fine resolution of 600 nm line pitch, to demonstrate the rewritable capability of our platform, then write laser-written waveguides between pairs of predefined grating couplers.…”
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confidence: 99%
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“…Here, we experimentally demonstrate a low-loss and rewritable PIC platform using laser-written Sb 2 S 3 . A dielectric-assisted waveguide structure 8,26 is used to lower the optical propagation loss while enhancing the endurance and reliability of PCMs. We first demonstrate arbitrary patterning on the PCM canvas with a fine resolution of 600 nm line pitch, to demonstrate the rewritable capability of our platform, then write laser-written waveguides between pairs of predefined grating couplers.…”
mentioning
confidence: 99%
“…The propagation loss was then measured via a cutback measurement as 0.01722 dB/μm, comparable to the 0.010 dB/μm loss in simulation. 8 While this loss is ∼1000 times larger than current commercial silicon photonic waveguides, 27 this loss is acceptable to create waveguides of submm length. Our rewritable and low-cost platform shows a promising path to democratizing PIC prototyping for designers without access to a nanofabrication facility, which will enhance PIC education and accelerate rapid PIC prototyping.…”
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confidence: 99%
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