Min Tang

1. Education experience

09/2014 – 06/2019 Institute of Semiconductors, CAS —— Microelectronics and Solid State Electronics
09/2010 – 07/2014 University of Science and Technology of China, CAS —— Bachelor in Optical Information Science and Technology

2. Work experience  

07/2019 – now  Institute for Integrative Nanosciences, IFW Dresden

3. Project experiences 

New type semiconductor laser and multi-function photonic integration        
——————- 2013-2017 National Natural Science Foundation
Purpose:Develop high-power, wavelength-tunable, high-speed modulation lasers for monolithic photonic integration to meet the growing bandwidth and capacity requirements of optical communications.
1. Combined with Comsol software simulation, a small-sized dual-mode laser with a variable curvature was proposed and developed.
2. Combined with the simulation of Matlab software, the systematic research on the arc-shaped multi-deformation microcavity is carried out. The guiding law of the chaos in arc-sides polygonal microcavity is found, and the fiber coupling efficiency of the microcavity laser exiting light is improved.
3. Nonlinear dynamics of a pair of microring lasers connected by waveguide are investigated numerically and experimentally. Four-wave mixing, injection locking and multi-period oscillation states are demonstrated for the twin lasers. Numerical simulation indicates the twin lasers coupled through the waveguide and the scattering field simultaneously.
high-speed pulsed photonic crystal laser based on coupled microcavity        
—————— 2016-2019 Natural Science Fund Project
Purpose:developing high-speed pulsed photonic crystal laser capable of generating high-speed laser signals and applicable to on-chip optical clock generation. A solid foundation for on-chip integration of high-speed microcavity photonic devices.
1. I mainly undertake the theoretical and simulation work in the project. The rate equation of the coupled cavity is obtained from the Heisenberg equation of motion. Different from the traditional mode-locking mechanism using saturable absorption, the new Q-switching mechanism caused by the detuning of the coupling cavity during laser operation is proposed. The feasibility of the pulsed laser is theoretically proved.
Tunable topology in photonic crystal                                     
——————————-2019-now IFW excellence programme
Purpose:investigating the topological boundary states and the topological phase transitions of topological photonic crystals (TPCs)

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.

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.

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.