Coupling strategies for silicon photonics integrated chips
Coupling strategies for silicon photonics integrated chips
Over the last 20 years, silicon photonics has revolutionized the field of integrated optics, providing a novel and powerful platform to build mass-producible optical circuits. One of the most attractive aspects of silicon photonics is its ability to provide extremely small optical components, whose typical dimensions are an order of magnitude smaller than those of optical fiber devices. This dimension difference makes the design of fiber-to-chip interfaces challenging and, over the years, has stimulated considerable technical and research efforts in the field. Fiber-to-silicon photonic chip interfaces can be broadly divided into two principle categories: in-plane and out-of-plane couplers. Devices falling into the first category typically offer relatively high coupling efficiency, broad coupling bandwidth (in wavelength), and low polarization dependence but require relatively complex fabrication and assembly procedures that are not directly compatible with wafer-scale testing. Conversely, out-of-plane coupling devices offer lower efficiency, narrower bandwidth, and are usually polarization dependent. However, they are often more compatible with high-volume fabrication and packaging processes and allow for on-wafer access to any part of the optical circuit. In this paper, we review the current state-of-the-art of optical couplers for photonic integrated circuits, aiming to give to the reader a comprehensive and broad view of the field, identifying advantages and disadvantages of each solution. As fiber-to-chip couplers are inherently related to packaging technologies and the co-design of optical packages has become essential, we also review the main solutions currently used to package and assemble optical fibers with silicon-photonic integrated circuits.
201-239
Marchetti, Riccardo
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Lacava, Cosimo
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Carroll, Lee
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Gradkowski, Kamil
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Minzioni, Paolo
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1 February 2019
Marchetti, Riccardo
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Lacava, Cosimo
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Carroll, Lee
bd95f0f3-2adb-4ae8-815e-5a0b555feec5
Gradkowski, Kamil
10e79eb5-dc71-4ef7-8005-8104ee0e70bd
Minzioni, Paolo
b3c7ad72-d91c-42cf-be38-d949d6d2e264
Marchetti, Riccardo, Lacava, Cosimo, Carroll, Lee, Gradkowski, Kamil and Minzioni, Paolo
(2019)
Coupling strategies for silicon photonics integrated chips.
Photonics Research, 7 (2), .
(doi:10.1364/PRJ.7.000201).
Abstract
Over the last 20 years, silicon photonics has revolutionized the field of integrated optics, providing a novel and powerful platform to build mass-producible optical circuits. One of the most attractive aspects of silicon photonics is its ability to provide extremely small optical components, whose typical dimensions are an order of magnitude smaller than those of optical fiber devices. This dimension difference makes the design of fiber-to-chip interfaces challenging and, over the years, has stimulated considerable technical and research efforts in the field. Fiber-to-silicon photonic chip interfaces can be broadly divided into two principle categories: in-plane and out-of-plane couplers. Devices falling into the first category typically offer relatively high coupling efficiency, broad coupling bandwidth (in wavelength), and low polarization dependence but require relatively complex fabrication and assembly procedures that are not directly compatible with wafer-scale testing. Conversely, out-of-plane coupling devices offer lower efficiency, narrower bandwidth, and are usually polarization dependent. However, they are often more compatible with high-volume fabrication and packaging processes and allow for on-wafer access to any part of the optical circuit. In this paper, we review the current state-of-the-art of optical couplers for photonic integrated circuits, aiming to give to the reader a comprehensive and broad view of the field, identifying advantages and disadvantages of each solution. As fiber-to-chip couplers are inherently related to packaging technologies and the co-design of optical packages has become essential, we also review the main solutions currently used to package and assemble optical fibers with silicon-photonic integrated circuits.
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prj_7_2_201
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Accepted/In Press date: 6 December 2018
e-pub ahead of print date: 13 December 2018
Published date: 1 February 2019
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Local EPrints ID: 428213
URI: http://eprints.soton.ac.uk/id/eprint/428213
PURE UUID: 6afd83e5-9f40-4cfc-b954-3f51dd5b9f1b
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Date deposited: 15 Feb 2019 17:30
Last modified: 16 Mar 2024 00:11
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Author:
Riccardo Marchetti
Author:
Cosimo Lacava
Author:
Lee Carroll
Author:
Kamil Gradkowski
Author:
Paolo Minzioni
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