趙玲娟是研究員,博士生導師,民族為漢族。
基本介紹
- 中文名:趙玲娟
- 國籍:中國
- 民族:漢族
- 畢業院校:天津大學
- 職業:教師
人物簡介,研究方向,完成項目,代表論文,
人物簡介
趙玲娟,研究員,博士生導師。1985年、1988年在天津大學電子工程系分別獲理學學士、理學碩士學位;畢業後一直在中科院半導體研究所從事半導體雷射器及相關集成器件的研究與開發。於1997年9月至1999年9月作為訪問學者在美國Brookhaven National Lab工作兩年。作為863項目“寬頻可調諧半導體雷射器的研究與開發”以及“寬頻波長可調諧雷射器與半導體光放大器單片集成器件”的課題負責人,主持完成了課題任務指標,研製出了波長調諧範圍達40nm的單片集成的半導體可調諧雷射器,並且研製出了寬頻可調諧雷射器和電吸收調製器的單片集成、以及寬頻可調諧雷射器和半導體光放大器的單片集成。作為課題負責人,完成了自然科學基金重點項目“超高速光信號出了關鍵技術及集成器件研究”,研製出了多種光時鐘恢復集成器件,實現了40Gb/s信號的全光時鐘恢復。參與研究了10Gb/s-40Gb/s電吸收調製的DFB雷射器模組的研究,參與完成了973項目“InP基光邏輯功能集成晶片材料研究”,國家自然基金重點項目: "光網路用光放大器、電吸收調製器和模斑轉換器串接集成材料與器件的研究"等。曾獲中國材料研究學會科學技術一等獎(半導體光電子功能材料集成技術平台,2006年),中國科學院科技進步二等獎(長波長無製冷單模雷射器的研究,1991)。
研究方向
InP基光電集成技術;高速率的電吸收調製器,半導體光放大器,半導體可調諧雷射器及其相關器件,全光時鐘恢復等光子信息處理器件的研究。當前課題組擁有金屬有機化學汽相沉積(MOCVD)的材料生長設備、微區光螢光測試分析設備、光電子器件的前後工藝設備以及光電子器件測試分析設備等,建立了以選區外延生長技術和量子阱混雜技術,各種光柵製作技術等為基礎的光子集成器件研究與開發的技術平台,具備了研究大規模光子集成迴路的基本條件
完成項目
2、國家自然科學基金面上項目:新型單片集成平衡探測器相關基礎研究(2013-2016)(主持)
3、國家“973”項目課題:受迫諧振模式控制機理及時鐘恢復集成器件研究(2011-2015)(主持)。
4、自然科學基金重點項目:超高速光信號處理關鍵技術及集成器件研究(2008-2011)(主持)。
5、國家“973”項目:InP基光邏輯功能集成晶片材料研究(2006-2010)(參與)。
6、國家“863”項目:寬頻波長可控雷射器與半導體光放大器的單片集成(2007-2009)(主持)。
7、國家“863”項目:寬頻可調諧半導體雷射器的研究與開發(2002-2005)(主持)。
8、國家“973”項目:新型量子阱功能材料和器件(2000-20005)(參與)
代表論文
1. Liqiang Yu; Dan Lu; Biwei Pan; Lingjuan Zhao, Widely Tunable Optical Decision Circuit Using a Monolithically Integrated SOA-SGDBR Laser , IEEE Photonics Technology Letters
2. Liqiang Yu; Huitao Wang; Dan Lu; Song Liang; Can Zhang; Biwei Pan; Limeng Zhang; Lingjuan Zhao, A Widely Tunable Directly Modulated DBR Laser With High Linearity , IEEE Photonics Journal
3. Liqiang Yu; Dan Lu; Biwei Pan; Lingjuan Zhao; Jiagui Wu; Guangqiong Xia; Zhengmao Wu; Wei Wang, Monolithically Integrated Amplified Feedback Lasers for High-Quality Microwave and Broadband Chaos Generation, Journal of Lightwave Technology
4. Liqiang Yu, Daibing Zhou and Lingjuan Zhao,A monolithically integrated dual-mode laser for photonic microwave generation and all-optical clock recovery
5. B. Niu, H. Yu, L. Yu, D. Zhou, D. Lu, L. Zhao, J. Pan, and W. Wang, A 1.65 μm three-section distributed Bragg reflector (DBR) laser for CH 4 gas sensors, Journal of Semiconductor
6. Can Zhang, Song Liang, Hongliang Zhu, Liangshun Han, Dan Lu, Lingjuan Zhao, Chen Ji, Wei Wang, The fabrication of 10-channel DFB Laser Array by SAG technology, Optics Communications
7. Liqiang Yu , Dan Lu, Lingjuan Zhao, Yan Li, Chen Ji, JiaoQing Pan, HongLiang Zhu, Wei Wang, A Wavelength and Mode-Spacing Tunable Dual-Mode Distributed Bragg Reflector Laser, IEEE Photonics Technology Letters, VOL
8. Chen Cheng, Zhao Ling-Juan, Qiu Ji-Fang, Liu Yang, Wang Wei and Lou Cai-Yun, Dual-wavelength Distributed Bragg Reflector Semiconductor Laser based on Composite Resonant Cavity ,Chinese Physics B, vol
9. Duanhua Kong, Hongliang Zhu, Song Liang, Wenke Yu, Caiyun Lou, Lingjuan Zhao, All-optical clock recovery using pareller ridge-width varied DFB lasers integrated with Y-branch waveguide coupler, Optics Communications
10. Bin Niu, Tao Hong, Weixi Chen, Lingjuan Zhao, Wei Wang, DC Characterizations of MQW Tunnel Diode and Laser Diode Hybrid Integration Device, IEEE Photonics Technology Letters, Vol
11. Can Zhang, Song Liang, Li Ma, Baojun Wang, Hongliang Zhu and Wei Wang, A modified SAG technique for the fabrication of DWDM DFB laser arrays with highly uniform wavelength spacings, Optics Express ,Vol
12. Jifang Qiu, Cheng Chen, Lingjuan Zhao, Yu Sun, Dan Lu, Caiyun Lou, and Wei Wang, Detailed Analysis of a 40 GHz All-Optical Synchronization based on an Amplified-Feedback DFB Laser, Applied Optics ,Vol
13. Kong Duan-Hua, Zhu Hong-Liang, Liang Song, Qiu Ji-Fang, Zhao Ling-Juan, Ultrashort Pulse Generation at Quasi-40-GHz by Using a Two-Section Passively Mode-Locked InGaAsP-InP Tensile Strained Quantum-Well Lasers
14. Chen, Cheng; Zhao, Lingjuan;, Pan, Jiaoqing; Qiu, Jifang; Liang, Song; Wang, Wei; Lou, Caiyun;“Amplified feedback DFB laser for 40 Gb/s all-optical clock recovery”
15. Liu, Y; Ye, N; Zhou, D.B.; Wang, B.J.; Pan, J.Q.; Zhao, L.J.; Wang, W. “A Sampled Grating DBR Laser Monolithically Integrated by Using SOAs with 22 mW Output Power and 51 ITU 100 GHz Channels over
16. Liu,Yang; Ye,Nan; Wang, Bao-Jun; Zhou, Dai-Bing; An, Xin; Bian, Jing; Pang, Jiao-Qing; Zhao,Ling-Juan and Wang, Wei, “Monolithic Integration of Widely Tunable Sampled Grating DBR Laser with Tilted Semiconductor Optical Amplifier”, Chinese Journal of Semiconductors, Vol
17. Sun,Yu;, Pan, JiaoQing;, Zhao, Lingjuan; Chen, Weixi;, Wang, Wei, Li Wang, Xiao Fan Zhao, and Cai Yun Lou,“All-Optical Clock Recovery for 20 Gb/s Using an Amplified Feedback DFB Laser”,Journal of Lightwave Technology, vol
18. Zhu, Hongliang; Xu, Xiaodong; Wang, Huan; Kong, Duanhua;, Liang, Song; Zhao, Lingjuan;, and Wang, Wei, “The Fabrication of Eight-Channel DFB Laser Array Using Sampled Gratings” IEEE.Photon.Technol
19. Kong, D.H; Zhu, H.L.; Liang, S.; Zhao, X.F.; Lou, C.X.; Wang, L.; Wang, B.J.; Zhao,L.J.;“ All-optical clock recovery using a ridge width varied two-section partly gain-coupled DFB self-pulsation laser
20. Liu Hongbo, Zhao Lingjuan, Pan Jiaoqing, Zhu Hongliang, Zhou Fan, Wang Baojun, Wang Wei, Monolithic integration of sampled grating DBR with Electroabsorption modulator by combining selective-area-growth MOCVD and Quantum-well intermixing
21. ZHAO Ling-Juan?, ZHANG Jing, WANG Lu, CHENG Yuan-Bing, PAN Jiao-Qing, LIU Hong-Bo, ZHU Hon-Liang, ZHOU Fan, BIAN Jing, WANG Bao-Jun, ZHU Ning-Hua, Wei WANG,“Wavelength Tunable Distributed Bragg Reflector Laser Integrated with Electro-Absorption Modulator by a Combined Method of Selective Area Growth and Quantum Well Intermixing”
22. 王路,廖栽宜,程遠兵,趙玲娟,潘教青,周帆,王圩”Monolithically Integrated Transceiver with Novel Y-branchBranch by Bundle Integrated Waveguide for Fibre Optic Gyroscope”, CHINESE PHYSICS LETTER, Vol
23. W Feng, J. Q. Pan, Y. B. Cheng, Z. Y. Liao, B. J. Wang, F. Zhou, L. J. Zhao, H. L. Zhu, and W. Wang, “Selective growth of absorptive InGaAsP layer on InP corrugation for a buried grating structure”, Appl. Phys
24. Xie HY, Pan JQ, Zhao LJ, Zhu HL, Wang LF, Wang W,Dual-wavelength distributed feedback laser for CWDM based on non-identical quantum well
25. Zhang Jing, Li Baoxia, Zhao Lingjuan, Wang Baojun, Zhou Fan, Zhu Hongliang, Bian Jing and Wang Wei. A Wavelength Tunable DBR Laser Integrated with an Electro-Absorption Modulator by a Combined Method of SAG and QWI. Chinese Journal of Semiconductors
26. Kan Qiang,Zhao Lingjuan,Zhou Fan, Wang Baojun,Wang Lufeng,and Wang Wei “Widely Tunable Sampled- Grating DBR Laser”, Chinese Journal of Semiconductors
27. Wen Feng, Wei Wang, Hongliang Zhu, Lingjuan Zhao, Lianping Hou and Jiaoqing Pan,Characteristics of oxide-free InGaAlAs layers grown by narrow stripe selective MOVPE
