High-bandwidth InGaAs photodetectors heterogeneously integrated on silicon waveguides using optofluidic assembly
High-bandwidth InGaAs photodetectors heterogeneously integrated on silicon waveguides using optofluidic assembly
Light-induced manipulation techniques have been utilized to transport, trap, or levitate microscopic objects for a wide range of applications in biology, electronics, and photonics. Without making direct physical contact, they can provide simple yet powerful means for high-precision assembly of microscale functional blocks and components within the integrated circuit platforms, thereby offering a viable alternative to the conventional heterogeneous integration techniques, such as wafer/die bonding and transfer printing. Using a microbubble-based optofluidic pick-and-place assembly process, heterogeneous integration of compact III-V semiconductor photodetectors on a silicon-based photonic integrated circuit chip, enabling direct high-speed vertical electrical contacts for significantly improved photogenerated carrier transit distance/time, is experimentally demonstrated. The microdisk-shaped InGaAs p-i-n photodetector integrated on the silicon waveguide has a 3 dB bandwidth exceeding 50 GHz under the applied bias voltage of −1 V for near-infrared wavelengths around 1.55 µm. The light-induced optofluidic assembly will provide a promising route for seamless heterogeneous integration of various optoelectronic components with high-speed and low-noise electrical interconnection on the fully processed silicon photonic/electronic integrated circuit platforms.
Mitchell, Colin
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Khokhar, Ali Z.
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Reed, Graham
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Wilkinson, James S.
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Jung, Youngho
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Bae, Sunghyun
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Kwon, Kyungmok
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Chung, Yun C.
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Yu, Kyoungsik
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22 December 2021
Mitchell, Colin
0e48c936-a405-434d-818a-d83e382aa826
Khokhar, Ali Z.
2eedd1cc-8ac5-4f8e-be25-930bd3eae396
Reed, Graham
ca08dd60-c072-4d7d-b254-75714d570139
Wilkinson, James S.
73483cf3-d9f2-4688-9b09-1c84257884ca
Jung, Youngho
a9a25760-ff6c-4fcf-85e9-f9475db88a78
Bae, Sunghyun
ccb3b1a3-526b-4a2d-bfa7-8256c3c173bf
Kwon, Kyungmok
d5cb9e87-5868-4bf2-ae7a-08140b1dc845
Chung, Yun C.
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Yu, Kyoungsik
4d2e4e9a-deac-4cfb-8c62-78a023d23cc5
Mitchell, Colin, Khokhar, Ali Z., Reed, Graham, Wilkinson, James S., Jung, Youngho, Bae, Sunghyun, Kwon, Kyungmok, Chung, Yun C. and Yu, Kyoungsik
(2021)
High-bandwidth InGaAs photodetectors heterogeneously integrated on silicon waveguides using optofluidic assembly.
Laser & Photonics Reviews.
(doi:10.1002/lpor.202100306).
Abstract
Light-induced manipulation techniques have been utilized to transport, trap, or levitate microscopic objects for a wide range of applications in biology, electronics, and photonics. Without making direct physical contact, they can provide simple yet powerful means for high-precision assembly of microscale functional blocks and components within the integrated circuit platforms, thereby offering a viable alternative to the conventional heterogeneous integration techniques, such as wafer/die bonding and transfer printing. Using a microbubble-based optofluidic pick-and-place assembly process, heterogeneous integration of compact III-V semiconductor photodetectors on a silicon-based photonic integrated circuit chip, enabling direct high-speed vertical electrical contacts for significantly improved photogenerated carrier transit distance/time, is experimentally demonstrated. The microdisk-shaped InGaAs p-i-n photodetector integrated on the silicon waveguide has a 3 dB bandwidth exceeding 50 GHz under the applied bias voltage of −1 V for near-infrared wavelengths around 1.55 µm. The light-induced optofluidic assembly will provide a promising route for seamless heterogeneous integration of various optoelectronic components with high-speed and low-noise electrical interconnection on the fully processed silicon photonic/electronic integrated circuit platforms.
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Laser Photonics Reviews - 2021 - Jung - High‐Bandwidth InGaAs Photodetectors Heterogeneously Integrated on Silicon
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Accepted/In Press date: 22 November 2021
Published date: 22 December 2021
Identifiers
Local EPrints ID: 454569
URI: http://eprints.soton.ac.uk/id/eprint/454569
ISSN: 1863-8880
PURE UUID: a41d56d6-5993-4d67-8dea-51eec6fea8da
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Date deposited: 16 Feb 2022 17:38
Last modified: 17 Mar 2024 03:32
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Contributors
Author:
Colin Mitchell
Author:
Ali Z. Khokhar
Author:
Graham Reed
Author:
Youngho Jung
Author:
Sunghyun Bae
Author:
Kyungmok Kwon
Author:
Yun C. Chung
Author:
Kyoungsik Yu
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