ZHANG Zanyun
Professor and Doctor
Tel.: 15302012023
Fax:+86-22-0000
E-mail: zhangzanyun@tiangong.edu.cn
Introduction
Zanyun Zhang obtained his doctoral degree in 2014 from the Institute of Semiconductors, Chinese Academy of Sciences. Then he worked as a faculty member in the School of Electronics and Information Engineering at Tiangong University. In 2017, he is promoted as an associate professor in Tiangong University. From november 2018 to november 2019, he conducted research work as a visiting scholar at the Optoelectronics Research Centre, University of Southampton, United Kingdom. In 2020 and 2022, he was awarded the Tianjin Science and Technological Progress Award (Second Prize) twice as a key participant. In 2021, he was awarded the Second Prize of National Postdoctoral Innovation and Entrepreneurship Competition as a key participant. In 2022, he was approved for the Technological Talent Project of Jiangsu Province. He have also served as an advisor for graduate students whose dissertations were recognized as outstanding in the Tianjin Engineering Professional Degree Institute. Currently, He is a professor and doctoral supervisor at the School of Electronics and Information Engineering, Tiangong University.
Research areas
His research focuses on novel silicon photonic devices and silicon-based optoelectronic integration. He has conducted interesting research work on the topics of surface normal optical coupling technology, polarization-insensitive silicon optical intensity modulation technology, thermal-tuning-free wavelength division multiplexing technology, and silicon photonic transceiver chip technology. He has published morethan 50 scientific papers in international journals, including Optica, ACS Photonics, Optics Letters, Optics Express, and Journal of Lightwave Technology. Among them, 38 papers are indexed by SCI, with a total citation count of more than 700 times according to Google Scholar. He has applied for 13 national invention patents, of which 5 have been granted, and 2 have been successfully transferred.
Main courses taught
Digital integrated circuits
Semiconductor optoelectronics
Main publications
1. Z. Zhang, J. Xing, B. Huang, et al. Interleaved bidirectional angled multimode interferometer for wavelength division (de) multiplexings, Optical Engineering, 62(10): 107101-107101, 2023.
2. Z. Zhang*, M. Li, K. Zhang, et al. Numerical Demonstration of 800 Gbps WDM Silicon Photonic Transmitter with Sub-Decibel Surface-Normal Optical Interfaces, Micromachines, 13(251), 2022.
3. Z. Zhang, K. Zhang, Q. Cheng, et al. High-efficiency two-dimensional perfectly vertical grating coupler with ultra-low polarization dependent loss and large fibre misalignment tolerance, IEEE Journal of Quantum Electronics, 57(5), pp. 8400407, 2021.
4. Z. Zhang, Q. Cheng, K. Zhang, et al. Vertical fibre interfacing interleaved angled MMI for thermal-tuning-free wavelength division (de)multiplexing and low-cost fibre packaging, Journal of Lightwave Technology, 39(19), pp. 6260-6268, 2021.
5. Z. Zhang*, T. Liu, K. Zhang, et al. Bidirectional grating based interleaved angled MMI for high-uniformity wavelength division (de)multiplexing and surface-normal fibre packaging, Applied Optics, 60(19), pp. 5615-5622, 2021.
6. Z. Zhang*, X. Chen, Q. Cheng, et al. Two-dimensional apodized grating coupler for polarization-independent and surface-normal optical coupling, Journal of Lightwave Technology, 38(15), pp. 4037-4044, 2020.
7. Z. Zhang*, X. Chen, Q. Cheng,et al. High-efficiency apodized bidirectional grating coupler for perfectly vertical coupling, Optics letters, 44(20), pp. 5081-5084, 2019.
8. B. Huang, Z. Zhang*, Z. Zhang, et al. 100 Gb/s Silicon Photonic WDM Transmitter with Misalignment-Tolerant Surface-Normal Optical Interfaces, Micromachines, 10(5), pp. 336, 2019.
9. Z. Zhang, H. Zhu, Q. Cheng, et al. Low polarization-dependent-loss double layer grating coupler for three-dimensional photonic integration, Optics Communications, 445, pp. 247-254, 2019.
10. Z. Zhang, H. Zhu, B. Huang, et al. Simulation of electrically tunable grating coupler for optical attenuation and spectrum-shift compensation, Optical engineering, 56(10), pp.107107, 2017.
11. Z. Zhang, B. Huang, Z. Zhang, et al. Highly efficient vertical fiber interfacing grating coupler with bilayer anti-reflection cladding and backside metal mirror, Optics & Laser Technology, 90, 136-143, 2017.
