1. 教育和工作经历
| 07/2019 –至今 | 博士后 —— 莱布尼兹固态材料研究所 |
| 09/2014 – 06/2019 | 博士 —— 中国科学院半导体研究所 |
| 09/2010 – 07/2014 | 本科 ——- 中国科学技术大学 |
2. 项目经历
| 新型半导体激光器与多功能光子集成 ———– 2013-2017国家自然科学基金 |
| 研究方向:开发用于单片光子集成的高功率,波长可调,高速调制激光器,以满足日益增长的光通信带宽和容量要求。 1. 提出一种波长间隔可调的变曲率双模激光器。 2. 对弧形多变形微腔进行了系统的研究。揭示弧边多边形微腔中混沌规律。 3. 研究了一对通过波导连接的微环激光器的非线性动力学。 |
| 基于耦合微腔的高速脉冲光子晶体激光器 ———- 2016-2019 自然科学基金项目 |
| 研究方向:研制出可产生高速激光信号和可应用于片上光学时钟发生的光子晶体高速脉冲激光器。为高速微腔光子器件的片上集成打下坚实的基础。 1. 主要承担项目中的理论与仿真工作。从底层的海森堡运动方程得到耦合腔的速率方程,不同于传统利用可饱和吸收的锁模机制,提出激光器工作时耦合腔失谐导致的调Q机制,在理论上计算出脉冲激光器的可行性。 |
| 光子晶体中的拓扑态 ———- 2019-2022 IFW卓越计划 |
| 研究方向:研究拓扑光子晶体(TPCs)的拓扑边界状态和拓扑相变 |
2019
Mode and lasing characteristics for scissor-FP hybrid-cavity semiconductor lasers
Y.Q. Ye, M. Tang, Y.H. Zhang, Y.D. Yang, J.L. Xiao, Y.Z. Huang
JOSA B, vol. 36, issue. 11, pp. 3009-3015, 2019.
Deterministic Yet Flexible Directional Light Emission from Spiral Nanomembrane Cavities
J.W. Wang, Y. Yin, Y.D. Yang, Q. Hao, M. Tang, X.X. Wang, C.N. Saggau, D. Karnaushenko, X.H. Yan, Y.Z. Huang, L.B. Ma, O.G. Schmidt
ACS Photonics, vol. 6, issue. 10, pp. 2537-2544, 2019.
Dual-mode microcavity semiconductor lasers
H.Z. Weng, J.L. Wu, Y.Z. Hao, M. Tang, J.L. Xiao, Y.Z. Huang
IEEE Journal of Selected Topics in Quantum Electronics, vol. 25, issue. 6, pp. 1-8, 2019.
Whispering-gallery mode hexagonal micro-/nanocavity lasers
Y.D. Yang, M. Tang, F.L. Wang, Z.X. Xiao, J.L. Xiao, Y.Z. Huang
Photonics Research, vol. 7, issue. 5, pp. 594-607, 2019.
Widely tunable single-mode lasers based on a hybrid square/rhombus-rectangular microcavity
Y.Z. Hao, F.L. Wang, M. Tang, H.Z. Weng, Y.D. Yang, J.L. Xiao, Y.Z. Huang
Photonics Research, vol. 7, issue. 5, pp. 543-548, 2019.
Ray dynamics and wave chaos in circular-side polygonal microcavities
M. Tang, Y.D. Yang, H.Z. Weng, J.L. Xiao, Y.Z. Huang
Physical Review A, vol. 99, issue. 3, pp. 033814, 2019.
2018
Wideband frequency-tunable optoelectronic oscillator with a directly modulated AlGaInAs/InP integrated twin-square microlaser
J.Y. Han, Y.T. Huang, Y.Z. Hao, M. Tang, F.L. Wang, J.L. Xiao, Y.D. Yang, Y.Z. Huang
Optics express, vol. 26, issue. 24, pp. 31784-31793, 2018.
Mode engineering for circular-side square microcavity lasers
Y.D. Yang, H.Z. Weng, M. Tang, Y.Z. Hao, J.L. Xiao, Y.Z. Huang
Nanophotonics and Micro/Nano Optics IV (Vol. 10823, p. 108230Z). International Society for Optics and Photonics, 2018.
2017
Variable-curvature microresonators for dual-wavelength lasing
M. Tang, Y.Z. Huang, Y.D. Yang, H.Z. Weng, Z.X. Xiao
Photonics Research, vol. 5, issue. 6, pp. 695-701, 2017.
Modulation bandwidth enhancement for coupled twin-square microcavity lasers
Z.X. Xiao, Y.Z. Huang, Y.D. Yang, M. Tang, J.L. Xiao
Optics letters, vol. 42, issue. 16, pp. 3173-3176, 2017.
All-optical flip-flop based on hybrid square-rectangular bistable lasers
X.W. Ma, Y.Z. Huang, Y.D. Yang, H.Z. Weng, F.L. Wang, M. Tang, J.L. Xiao, Y. Du
Optics letters, vol. 42, issue 12, pp. 2291-2294, 2017.
Mode and lasing characteristics for hybrid square-rectangular lasers
X.W. Ma, Y.Z. Huang, Y.D. Yang, H.Z. Weng, J.L. Xiao, M. Tang, Y. Du
IEEE Journal of Selected Topics in Quantum Electronics, vol. 23, issue. 6, pp. 1-9, 2017.
Monolithically Integrated Electrically Pumped Continuous-Wave III-V Quantum Dot Light Sources on Silicon
M. Liao, S. Chen, S. Huo, J. Wu, M. Tang, K. Kennedy, W. Li, M. Martin, T. Baron, C.Y. Jin, I. Ross, A. Seeds, H. Liu
IEEE Journal of Selected Topics in Quantum Electronics. Vol. 23, pp. 1900910, 2017.