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Continuous wave and modulation performance of 1550 nm band wafer-fused VCSELs with MBE-grown InP-based active region and GaAs-based DBRs

机译：具有MBE生长的基于InP的有源区和基于GaAs的DBR的1550 nm波段晶片融合VCSEL的连续波和调制性能

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We report for the first time on wafer-fused InGaAs-InP/AlGaAs-GaAs 1550 nm vertical-cavity surface-emitting lasers (VCSELs) incorporating a InAlGaAs/InP MQW active region with re-grown tunnel junction sandwiched between top and bottom undoped AlGaAs/GaAs distributed Bragg reflectors (DBRs) all grown by molecular beam epitaxy. InP-based active region includes seven compressively strained quantum wells (2.8 nm) optimized to provide high differential gain. Devices with this active region demonstrate lasing threshold current < 2.5 mA and output optical power > 2 mW in the temperature range of 10-70°C. The wall-plug efficiency (WPE) value- reaches 20 %. Lasing spectra show single mode CW operation with a longitudinal side mode suppression ratio (SMSR) up to 45 dB at > 2 mW output power. Small signal modulation response measurements show a 3-dB modulation bandwidth of ~ 9 GHz at pump current of 10 mA and a D-factor value of 3 GHz/(mA)~(1/2). Open-eye diagram at 30 Gb/s of standard NRZ is demonstrated. Achieved CW and modulation performance is quite sufficient for fiber to the home (FTTH) applications where very large volumes of low-cost lasers are required.

机译：我们首次报道了结合有InAlGaAs / InP MQW有源区的晶圆融合InGaAs-InP / AlGaAs-GaAs 1550 nm垂直腔面发射激光器（VCSEL），并在顶部和底部未掺杂的AlGaAs之间夹有重新生长的隧道结/ GaAs分布式布拉格反射器（DBR）均通过分子束外延生长。基于InP的有源区包括七个压缩应变量子阱（2.8 nm），这些量子阱经过优化可提供高差分增益。具有此有源区域的器件在10-70°C的温度范围内具有小于2.5 mA的激射阈值电流和大于2 mW的输出光功率。壁挂效率（WPE）值达到20％。激光光谱显示在输出功率> 2 mW时，单模式CW操作具有高达45 dB的纵向侧模抑制比（SMSR）。小信号调制响应测量显示，在10 mA的泵浦电流下，3 dB的调制带宽约为9 GHz，D因子值为3 GHz /（mA）〜（1/2）。展示了标准NRZ在30 Gb / s时的睁眼图。对于需要大量低成本激光器的光纤到户（FTTH）应用，已实现的CW和调制性能已足够。

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《Vertical-Cavity surface-emitting lasers XXI》|2017年|1012208.1-1012208.6|共6页
会议地点 San Francisco(US)
作者
A. V. Babichev; L. Ya. Karachinsky; I.I. Novikov; A. G. Gladyshev; S. Mikhailov; V. Iakovlev; A. Sirbu; G. Stepniak; L. Chorchos; J.P. Turkiewicz; M. Agustin; N. N. Ledentsov; K. O. Voropaev; A.S. Ionov; A. Yu. Egorov;
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Connector Optics LLC, 16 Domostroitelnaya str., Saint Petersburg, Russia 194292;

Connector Optics LLC, 16 Domostroitelnaya str., Saint Petersburg, Russia 194292;

Connector Optics LLC, 16 Domostroitelnaya str., Saint Petersburg, Russia 194292;

Connector Optics LLC, 16 Domostroitelnaya str., Saint Petersburg, Russia 194292;

RTI-Research SA, 6 Galilee str., Yverdon-les-Bains, Switzerland 1400;

RTI-Research SA, 6 Galilee str., Yverdon-les-Bains, Switzerland 1400;

RTI-Research SA, 6 Galilee str., Yverdon-les-Bains, Switzerland 1400;

Warsaw University of Technology, Institute of Telecommunications, 15/19 Nowowiejska str., Warsaw, Poland 00-665;

Warsaw University of Technology, Institute of Telecommunications, 15/19 Nowowiejska str., Warsaw, Poland 00-665;

Warsaw University of Technology, Institute of Telecommunications, 15/19 Nowowiejska str., Warsaw, Poland 00-665;

VI Systems GmbH, 7 Hardenbergstrasse, Berlin, Germany 10623;

VI Systems GmbH, 7 Hardenbergstrasse, Berlin, Germany 10623;

OKB-Planeta PLC, 2/13 Fedorovskiy Ruchey str., V. Novgorod, Russia 173004;

OKB-Planeta PLC, 2/13 Fedorovskiy Ruchey str., V. Novgorod, Russia 173004;

Connector Optics LLC, 16 Domostroitelnaya str., Saint Petersburg, Russia 194292,ITMO University, 49 Kronverkskiy str., Saint Petersburg, Russia 197101;

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正文语种 eng
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关键词
semiconductor laser; VCSEL; wafer fusion; high-speed data transmission;

机译：半导体激光器VCSEL；晶片熔合；高速数据传输;

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专利

1. Efficient Modulation of InP-Based 1.3-(mu)m VCSELs With AsSb-Based DBRs [J] . D. Feezell, L. A. Johansson, D. A. Buell, IEEE Photonics Technology Letters . 2005,第11期

机译：具有基于AsSb的DBR的基于InP的1.3μmVCSEL的高效调制
2. 6-mW Single-Mode High-Speed 1550-nm Wafer-Fused VCSELs for DWDM Application [J] . Andrey V. Babichev, Leonid Ya. Karachinsky, Innokenty I. Novikov, IEEE Journal of Quantum Electronics . 2017,第6期

机译：用于DWDM应用的6mW单模高速1550nm晶圆融合VCSEL
3. 1.5-mW Single-Mode Operation of Wafer-Fused 1550-nm VCSELs [J] . A. Syrbu, A. Mircea, A. Mereuta, IEEE Photonics Technology Letters . 2004,第5期

机译：晶圆融合的1550nm VCSEL的1.5mW单模工作
4. Continuous wave and modulation performance of 1550 nm band wafer-fused VCSELs with MBE-grown InP-based active region and GaAs-based DBRs [C] . A. V. Babichev, L. Ya. Karachinsky, I.I. Novikov, Conference on vertical-Cavity surface-emitting lasers XXI . 2017

机译：1550nm频段晶圆融合VCSELS的连续波和调制性能，具有基于MBE-生长的基于INP的有源区和基于GAAS的DBRS
5. Highly-Strained P-type Modulation Doped Active Regions for High-Speed VCSELs. [D] . Zheng, Yan. 2012

机译：高速VCSEL的高应变P型调制掺杂有源区。
6. Integrated Duo Wavelength VCSEL Using an Electrically Pumped GaInAs/AlGaAs 980 nm Cavity at the Bottom and an Optically Pumped GaInAs/AlGaInAs 1550 nm Cavity on the Top [O] . Samiha Ishrat Islam, Arnob Islam, Saiful Islam 2014

机译：集成双波长VCSEL底部使用电泵浦的GaInAs / AlGaAsAs 980 nm腔顶部使用光泵浦的GaInAs / AlGaInAs 1550 nm腔
7. High Speed VCSEL Transmission at 1310 nm and 1550 nm Transmission Wavelengths [O] . Henry Chepkoiwo Cherutoi 2017

机译：高速VCSEL传输，1310 nm和1550nm传输波长
8. Thermal Lensing in Ocular Media Exposed to Continuous Wave Near- Infrared Radiation: the 1150-1350-nm Region [R] . Vincelette, R. L., Welch, A. J., Thomas, R. J., 2008

机译：暴露于连续波近红外辐射的眼部介质中的热透射：1150-1350nm区域

Continuous wave and modulation performance of 1550 nm band wafer-fused VCSELs with MBE-grown InP-based active region and GaAs-based DBRs

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