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Sub-kHz linewidth, hybrid III-V/silicon wavelength-tunable laser diode operating at the application-rich 1647-1690 nm

Sub-kHz linewidth, hybrid III-V/silicon wavelength-tunable laser diode operating at the application-rich 1647-1690 nm
Sub-kHz linewidth, hybrid III-V/silicon wavelength-tunable laser diode operating at the application-rich 1647-1690 nm

The wavelength region about of 1650 nm enables pervasive applications. Some instances include methane spectroscopy, free-space/fiber communications, LIDAR, gas sensing (i.e. C2H2, C2H4, C3H8), surgery and medical diagnostics. In this work, through the hybrid integration between an III-V optical amplifier and an extended, low-loss wavelength tunable silicon Vernier cavity, we report for the first time, a III-V/silicon hybrid wavelength-tunable laser covering the application-rich wavelength region of 1647-1690 nm. Room-temperature continuous wave operation is achieved with an output power of up to 31.1 mW, corresponding to a maximum side-mode suppression ratio of 46.01 dB. The laser is ultra-coherent, with an estimated linewidth of 0.7 kHz, characterized by integrating a 35 km-long recirculating fiber loop into the delayed self-heterodyne interferometer setup. The laser linewidth is amongst the lowest in hybrid/heterogeneous III-V/silicon lasers.

1094-4087
25215-25224
Sia, Jia Xu Brian
996b6cec-fd29-4301-9eae-b8b21dbe1405
Li, Xiang
287007c2-8090-4d25-a1e1-5a3d85fcd681
Wang, Wanjun
79108a43-c2a9-4a18-9aeb-8a9b45941dd0
Qiao, Zhongliang
c70103ef-3b61-456d-95ff-b760d74bea4f
Guo, Xin
c1da16ff-f2d9-4500-92c7-aafb401efab8
Zhou, Jin
614f5ebf-cf64-4299-b6d3-aee0e91eba8b
Littlejohns, Callum G.
d2837f04-0a83-4bf9-acb2-618aa42a0cad
Liu, Chongyang
46565e0b-5d4d-407e-8d3a-ee2d344fe21a
Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139
Wang, Hong
dfd0ec4f-682a-4596-a0d1-171313cc5733
Sia, Jia Xu Brian
996b6cec-fd29-4301-9eae-b8b21dbe1405
Li, Xiang
287007c2-8090-4d25-a1e1-5a3d85fcd681
Wang, Wanjun
79108a43-c2a9-4a18-9aeb-8a9b45941dd0
Qiao, Zhongliang
c70103ef-3b61-456d-95ff-b760d74bea4f
Guo, Xin
c1da16ff-f2d9-4500-92c7-aafb401efab8
Zhou, Jin
614f5ebf-cf64-4299-b6d3-aee0e91eba8b
Littlejohns, Callum G.
d2837f04-0a83-4bf9-acb2-618aa42a0cad
Liu, Chongyang
46565e0b-5d4d-407e-8d3a-ee2d344fe21a
Reed, Graham T.
ca08dd60-c072-4d7d-b254-75714d570139
Wang, Hong
dfd0ec4f-682a-4596-a0d1-171313cc5733

Sia, Jia Xu Brian, Li, Xiang, Wang, Wanjun, Qiao, Zhongliang, Guo, Xin, Zhou, Jin, Littlejohns, Callum G., Liu, Chongyang, Reed, Graham T. and Wang, Hong (2020) Sub-kHz linewidth, hybrid III-V/silicon wavelength-tunable laser diode operating at the application-rich 1647-1690 nm. Optics Express, 28 (17), 25215-25224. (doi:10.1364/OE.400666).

Record type: Article

Abstract

The wavelength region about of 1650 nm enables pervasive applications. Some instances include methane spectroscopy, free-space/fiber communications, LIDAR, gas sensing (i.e. C2H2, C2H4, C3H8), surgery and medical diagnostics. In this work, through the hybrid integration between an III-V optical amplifier and an extended, low-loss wavelength tunable silicon Vernier cavity, we report for the first time, a III-V/silicon hybrid wavelength-tunable laser covering the application-rich wavelength region of 1647-1690 nm. Room-temperature continuous wave operation is achieved with an output power of up to 31.1 mW, corresponding to a maximum side-mode suppression ratio of 46.01 dB. The laser is ultra-coherent, with an estimated linewidth of 0.7 kHz, characterized by integrating a 35 km-long recirculating fiber loop into the delayed self-heterodyne interferometer setup. The laser linewidth is amongst the lowest in hybrid/heterogeneous III-V/silicon lasers.

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Accepted/In Press date: 20 July 2020
Published date: 11 August 2020
Additional Information: Funding Information: National Research Foundation Singapore (NRF-CRP12-2013-04).
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 481415
URI: http://eprints.soton.ac.uk/id/eprint/481415
DOI: doi:10.1364/OE.400666
ISSN: 1094-4087
PURE UUID: 74a5f139-b859-4fb1-b4dd-bef0b517e95a

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Date deposited: 25 Aug 2023 17:01
Last modified: 17 Mar 2024 13:27

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Contributors

Author: Jia Xu Brian Sia
Author: Xiang Li
Author: Wanjun Wang
Author: Zhongliang Qiao
Author: Xin Guo
Author: Jin Zhou
Author: Callum G. Littlejohns
Author: Chongyang Liu
Author: Graham T. Reed
Author: Hong Wang

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