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Infrared and Laser Engineering, Volume. 53, Issue 11, 20240223(2024)

Quantum dot lasers on silicon substrates through evanescent coupling

Mingyue XIAO1,2, Xiwen HE3, Chen ZHOU3, Deyue MA3, Ruxin LI2,4, and Zhiping ZHOU3,5,6、*
Author Affiliations
  • 1School of Microelectronics, Shanghai University, Shanghai 201800, China
  • 2State Key Laboratory of High Field Laser Physics, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 3Aerospace Laser Technology and Systems Department, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • 4School of Physical Science and Technology, ShanghaiTech University, Shanghai 201210, China
  • 5Hangzhou Aijie Optoelectronic Technology Co.Ltd., Hangzhou 310000, China
  • 6School of Electronics, Peking University, Beijing 100871, China
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    References(28)

    [1] Z ZHOU, W CHEN, X HE et al. Photonics in a time of rapid growth: Silicon Based Optoelectronics in China. IEEE Photonics Journal, 16, 3324756(2024).

    [2] L LI, G LI, Z ZHANG et al. Silicon-based optoelectronic heterogeneous integration for optical interconnection. Chinese Physics B, 33, 024201(2024).

    [3] D GAO, Z ZHOU. Silicon-based optoelectronics: progress towards large scale optoelectronic integration and applications. Frontiers of Optoelectronics, 15, 27(2022).

    [4] Z ZHOU, X OU, Y FANG et al. Prospects and applications of on-chip lasers. Elight, 3, 1(2023).

    [5] Z ZHOU, B YIN, J MICHEL. On-chip light sources for silicon photonics. Light: Science & Applications, 4, e358(2015).

    [6] [6] WANG Ting, ZHANG JianJun, LIU Huiyun. Quantum dot lasers on silicon substrate f silicon photonic integration their prospect[J]. Acta Physica Sinica , 2015, 64(20): 204209. (in Chinese)

              WANG Ting, ZHANG JianJun, LIU Huiyun. Quantum dot lasers on silicon substrate f silicon photonic integration their prospect[J]. Acta Physica Sinica, 2015, 64(20): 204209. (in Chinese)

    [7] A W FANG, H PARK, R JONES et al. A continuous-wave hybrid AlGaInAs-silicon evanescent laser. IEEE Photonics Technology Letters, 18, 1143-1145(2006).

    [8] G ROELKENS, L LIU, D LIANG et al. III‐V/silicon photonics for on‐chip and intra‐chip optical interconnects. Laser & Photonics Reviews, 4, 751-779(2010).

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    [11] [11] LU Y. Development of highperfmance, costeffective Quantum dot lasers f datacentre Si photonics applications[D]. London: University College London, 2023.

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    [13] T IDE, T BABA, J TATEBAYASHI. Room temperature lasing in InAs quantum-dot microdisk laser[C]//Conference on Lasers and Electro-Optics, 2004, 2: 1360604.

    [14] N KIRSTAEDTER, N N LEDENTSOV, M GRUNDMANN et al. Low threshold, large To injection laser emission from (InGa)As quantum dots. Electronics Letters, 30, 1416-1417(1994).

    [15] [15] KAGEYAMA T, NISHI K, YAMAGUCHI M, et al. Extremely high temperature (220 ℃) continuouswave operation of 1300nmrange quantumdot lasers[C]Conference on Lasers ElectroOptics, 2011: 5943701.

    [16] H LIU, W TING, J QI et al. Long-wavelength InAs/GaAs quantum-dot laser diode monolithically grown on Ge substrate. Nature Photonics, 5, 416-419(2011).

    [17] J KWOEN, I TAKAYA, A YASUHIKO. InAs/InGaAs quantum dot lasers on multi-functional metamorphic buffer layers. Optics Express, 29, 29378-29386(2021).

    [18] [18] HUANG D, SHANE Y, SU G, et al. Feedback tolerant quantum dot lasers integrated with 300 mm silicon photonics[C]Optical Fiber Communication Conference, 2024.

    [19] S CHEN, L WEI, H LIU et al. Electrically pumped continuous-wave III–V quantum dot lasers on silicon. Nature Photonics, 10, 307-311(2016).

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    [21] K LI, Z LIU, M TANG et al. O-band InAs/GaAs Quantum dot laser monolithically integrated on exact (0 0 1) Si substrate. Journal of Crystal Growth, 511, 56-60(2019).

    [22] W WEI, A HE, B YANG et al. Monolithic integration of embedded Ⅲ-Ⅴ lasers on SOI. Light: Science & Applications, 12, 84(2023).

    [23] Y WANG, B MA, J LI et al. InAs/GaAs quantum-dot lasers grown on on-axis Si (001) without dislocation filter layers. Optics Express, 31, 4862-4872(2023).

    [24] Z LV, S WANG, T YANG et al. Ultra-high thermal stability InAs/GaAs quantum dot lasers grown on on-axis Si (001) with a record-high continuous-wave operating temperature of 150 ℃. Optics Express, 31, 24173-24182(2023).

    [25] Y XUE, L JIE, M L KEI et al. In‐plane 1.5 µm distributed feedback lasers selectively grown on (001) SOI. Laser & Photonics Reviews, 18, 2300549(2024).

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    [27] Y WAN, C XIANG, G JOEL et al. High speed evanescent quantum dot lasers on Si. Laser & Photonics Reviews, 15, 2100057(2021).

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    Mingyue XIAO, Xiwen HE, Chen ZHOU, Deyue MA, Ruxin LI, Zhiping ZHOU. Quantum dot lasers on silicon substrates through evanescent coupling[J]. Infrared and Laser Engineering, 2024, 53(11): 20240223

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    Paper Information

    Category: 激光器与激光光学

    Received: Jul. 28, 2024

    Accepted: --

    Published Online: Dec. 13, 2024

    The Author Email: ZHOU Zhiping (zjzhou@pku.edu.cn)

    DOI:10.3788/IRLA20240223

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology