850/940-nm VCSEL for optical communication and 3D sensing

This paper is going to review the state-of-the-art of the high-speed 850/940-nm vertical cavity surface emitting laser (VCSEL), discussing the structural design, mode control and the related data transmission performance. InGaAs/AlGaAs multiple quantum well (MQW) was used to increase the differentia...

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Autores principales: Cheng Chih-Hsien, Shen Chih-Chiang, Kao Hsuan-Yun, Hsieh Dan-Hua, Wang Huai-Yung, Yeh Yen-Wei, Lu Yun-Ting, Huang Chen Sung-Wen, Tsai Cheng-Ting, Chi Yu-Chieh, Kao Tsung Sheng, Wu Chao-Hsin, Kuo Hao-Chung, Lee Po-Tsung, Lin Gong-Ru
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Publicado: Institue of Optics and Electronics, Chinese Academy of Sciences 2018
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Acceso en línea:https://doaj.org/article/59f56e48c2bd4733bef4319afdd70a46
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spelling oai:doaj.org-article:59f56e48c2bd4733bef4319afdd70a462021-11-11T10:07:54Z850/940-nm VCSEL for optical communication and 3D sensing2096-457910.29026/oea.2018.180005https://doaj.org/article/59f56e48c2bd4733bef4319afdd70a462018-03-01T00:00:00Zhttp://www.oejournal.org/article/doi/10.29026/oea.2018.180005https://doaj.org/toc/2096-4579This paper is going to review the state-of-the-art of the high-speed 850/940-nm vertical cavity surface emitting laser (VCSEL), discussing the structural design, mode control and the related data transmission performance. InGaAs/AlGaAs multiple quantum well (MQW) was used to increase the differential gain and photon density in VCSEL. The multiple oxide layers and oxide-confined aperture were well designed in VCSEL to decrease the parasitic capacitance and generate single mode (SM) VCSEL. The maximal modulation bandwidth of 30 GHz was achieved with well-designed VCSEL structure. At the end of the paper, other applications of the near-infrared VCSELs are discussed.Cheng Chih-HsienShen Chih-ChiangKao Hsuan-YunHsieh Dan-HuaWang Huai-YungYeh Yen-WeiLu Yun-TingHuang Chen Sung-WenTsai Cheng-TingChi Yu-ChiehKao Tsung ShengWu Chao-HsinKuo Hao-ChungLee Po-TsungLin Gong-RuInstitue of Optics and Electronics, Chinese Academy of Sciencesarticlevertical cavity surface emitting laser3d sensingoptical communicationlidarvirtual realityaugmented realityOptics. LightQC350-467ENOpto-Electronic Advances, Vol 1, Iss 3, Pp 180005-1-180005-11 (2018)
institution DOAJ
collection DOAJ
language EN
topic vertical cavity surface emitting laser
3d sensing
optical communication
lidar
virtual reality
augmented reality
Optics. Light
QC350-467
spellingShingle vertical cavity surface emitting laser
3d sensing
optical communication
lidar
virtual reality
augmented reality
Optics. Light
QC350-467
Cheng Chih-Hsien
Shen Chih-Chiang
Kao Hsuan-Yun
Hsieh Dan-Hua
Wang Huai-Yung
Yeh Yen-Wei
Lu Yun-Ting
Huang Chen Sung-Wen
Tsai Cheng-Ting
Chi Yu-Chieh
Kao Tsung Sheng
Wu Chao-Hsin
Kuo Hao-Chung
Lee Po-Tsung
Lin Gong-Ru
850/940-nm VCSEL for optical communication and 3D sensing
description This paper is going to review the state-of-the-art of the high-speed 850/940-nm vertical cavity surface emitting laser (VCSEL), discussing the structural design, mode control and the related data transmission performance. InGaAs/AlGaAs multiple quantum well (MQW) was used to increase the differential gain and photon density in VCSEL. The multiple oxide layers and oxide-confined aperture were well designed in VCSEL to decrease the parasitic capacitance and generate single mode (SM) VCSEL. The maximal modulation bandwidth of 30 GHz was achieved with well-designed VCSEL structure. At the end of the paper, other applications of the near-infrared VCSELs are discussed.
format article
author Cheng Chih-Hsien
Shen Chih-Chiang
Kao Hsuan-Yun
Hsieh Dan-Hua
Wang Huai-Yung
Yeh Yen-Wei
Lu Yun-Ting
Huang Chen Sung-Wen
Tsai Cheng-Ting
Chi Yu-Chieh
Kao Tsung Sheng
Wu Chao-Hsin
Kuo Hao-Chung
Lee Po-Tsung
Lin Gong-Ru
author_facet Cheng Chih-Hsien
Shen Chih-Chiang
Kao Hsuan-Yun
Hsieh Dan-Hua
Wang Huai-Yung
Yeh Yen-Wei
Lu Yun-Ting
Huang Chen Sung-Wen
Tsai Cheng-Ting
Chi Yu-Chieh
Kao Tsung Sheng
Wu Chao-Hsin
Kuo Hao-Chung
Lee Po-Tsung
Lin Gong-Ru
author_sort Cheng Chih-Hsien
title 850/940-nm VCSEL for optical communication and 3D sensing
title_short 850/940-nm VCSEL for optical communication and 3D sensing
title_full 850/940-nm VCSEL for optical communication and 3D sensing
title_fullStr 850/940-nm VCSEL for optical communication and 3D sensing
title_full_unstemmed 850/940-nm VCSEL for optical communication and 3D sensing
title_sort 850/940-nm vcsel for optical communication and 3d sensing
publisher Institue of Optics and Electronics, Chinese Academy of Sciences
publishDate 2018
url https://doaj.org/article/59f56e48c2bd4733bef4319afdd70a46
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