李惠

发布日期:2017/03/24      点击:[]

姓名

李惠

      undefined

  性别

出生年月

1986.02

职称

讲师

学历

(学位)

(研究生)博士

  所属

  学院

数理学院

  导师  

  类别

硕士生导师

招生

专业

光电工程

研究方向

面发射激光器,半导体激光器,新型光电子器件及其应用

联系  方式

邮箱:lilinlu88@163.com

个人简历(包括近期科研项目)

李惠,博士,讲师,主要从事高速半导体器件相关的研究工作。20158月毕业于德国柏林工业大学,获理学博士学位。迄今,在国内外期刊发表论文20余篇,其中第一作者10篇;主持国家自然基金委理论物理博士研究人员启动项目一项、山东省中青年科学家科研奖励基金1项、青岛市应用基础研究计划项目1项、中科院长春光机所发光学及应用国家重点实验室开放课题1项。

主持的科研项目情况

1、国家自然科学基金(项目编号:11647169):光互连高速激光器能耗性能优化的理论研究(起止时间:2017.1-2017.12

2、山东省自然科学基金(项目编号:ZR2016FB05):增益-模式差对高速低能耗激光器性能的影响研究(起止时间:2016-2018

3青岛市科技计划基础研究基金(项目编号:16-5-1-8-jch):高速低能耗隧道结-氧化限制型光通讯VCSEL研究(起止时间:2016-2018

4发光学及应用国家重点实验室开放课题(项目编号:SKLA-2016-14):高基于隧道结的高性能光通信VCSEL研究(起止时间:2016.3-2017.12

近期发表的主要SCI收录科研论文

1. Hui Li*, Philip Wolf, James A. Lott, Dieter Bimberg, “Relative intensity noise of temperature-stable, energy-efficient 980 nm VCSELs”, AIP Advances, 2017.2.16, 7(2): 025107~025107.

2. H. Li*, P. Wolf, P. Moser, G. Larisch, A. Mutig, J. A. Lott, and D. Bimberg, “Impact of the quantum well gain-to-cavity etalon wavelength offset on the high temperature performance of high bit rate 980 nm VCSELs,” IEEE J. Quantum Electron., vol. 50, no. 8, 613-621, Aug. 2014.

3. H. Li*, P. Wolf, P. Moser, G. Larisch, J. A. Lott, and D. Bimberg, “Temperature-Stable, Energy-Efficient and High-Speed Oxide-Confined 980 nm VCSELs for Optical Interconnects,” IEEE J. Sel. Top. Quant. Electron. vol. 21, no. 6, pp. 1700409-1-9, Nov./Dec. 2015.

4. H. Li*, J. A. Lott, P. Wolf, P. Moser, G. Larisch, and D. Bimberg, “Temperature- Dependent Impedance Characteristics of Temperature-Stable High-Speed 980 nm VCSELs,” IEEE Photon. Technol. Lett., vol. 27, no. 8, pp. 832–835, Apr. 2015.

5. H. Li*, P. Wolf, P. Moser, G. Larisch, J. A. Lott, and D. Bimberg, “Temperature-Stable 980 nm VCSELs for 35 Gb/s Operation at 85 °C with 139 fJ/bit Dissipated Heat,” IEEE Photon. Technol. Lett., vol. 26, no. 23, pp. 2349–2352, Dec. 2014.

6. H. Li*, P. Wolf, P. Moser, G. Larisch, A. Mutig, J. A. Lott, and D. Bimberg, “Energy-efficient and temperature-stable oxide-confined 980 nm VCSELs operating error-free at 38 Gbit/s at 85 °C,” Electron. Lett., vol. 50, no. 2, pp. 103-105, Jan. 2014.

7. Hui Li, Philip Moser, Philip Wolf, Gunter Larisch, Leszek Frasunkiewicz, Maciej Dems, Tomasz Czyszanowski, James A. Lott, and Dieter Bimberg, “Energy efficiency, bit rate, and modal properties of 980 nm VCSELs for very-short-reach optical interconnects,” in proc. SPIE 9001 on Vertical-Cavity Surface-Emitting Lasers XVIII, Feb. 2014, pp. 900110B-90010B-8.

8. H. Li*, P. Wolf, P. Moser, G. Larisch, J. A. Lott, and D. Bimberg, “Temperature-Stable Energy-Efficient High-Bit-Rate Oxide-Confined 980 nm VCSELs for Optical Interconnects,” in proc. Asia Communications and Photonics Conference, Nov. 2014, pp. ATh1A.5. (First prize of Best student paper award)

9. H. Li*, P. Wolf, P. Moser, G. Larisch, J. A. Lott, and D. Bimberg, “Vertical-cavity surface-emitting lasers for optical interconnects,” SPIE Newsroom Optoelectronics & Communications, pp.1-3, Nov. 2014. DOI: 10.1117/2.1201411.005689 邀请文章

10. H. Li, X. Hu, J.Gong, X.Hu, R. Q. Zhang, Barrier dependent electron tunneling lifetime in one-dimensional device structures, Journal of Applied Physics, vol. 108, no. 10, pp. 3920, Nov. 2010.

11. D. Bimberg, H. Li, P. Moser, P. Wolf, G. Larisch, J. A. Lott, and D. Bimberg, “VCSELs for computer interconnects,” in proc. IEEE Photonics Conference (IPC), Oct. 2014, ME 1.2, pp.89-90.

12. P. Wolf, H. Li, P. Moser, G. Larisch, J. A. Lott, and D. Bimberg, “Extraction and analysis of high-frequency response and impedance of 980-nm VCSELs as a function of temperature and oxide aperture diameter,” in proc. SPIE 9381 on Vertical-Cavity Surface-Emitting Lasers XIX, Feb. 2015, pp. 9381-9381-15.

13. H. Li*, P. Moser, P. Wolf, G. Larisch, J. A. Lott, and D. Bimberg, “Energy efficient 850 nm VCSELs for Multimode Fiber Based Optical Interconnects,” in proc. International Nano-Optoelectronics Workshop (iNOW), 2013, pp. B60-B61.

14. P. Wolf, P. Moser, G. Larisch, H. Li, J.A. Lott and D. Bimberg, “Energy efficient 40 Gbit/s transmission with 850 nm VCSELs at 108 fJ/bit dissipated heat,” Electron. Lett., vol. 49, no. 10, pp. 666−667, May 2013.

15. P. Moser, J.A. Lott, P. Wolf, G. Larisch, H. Li, and D. Bimberg, “85-fJ Dissipated Energy Per Bit at 30 Gb/s Across 500-m Multimode Fiber Using 850-nm VCSELs”, IEEE Photon. Technol. Lett., vol. 25, no. 16, p. 1638−1294, Aug. 2013.

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