Zhang YongAssociate Researcher

Address:上海市东川路800号电信电院群楼1-105室

Phone:+86 21 34204356

Email:yongzhang@sjtu.edu.cn

Research Center:Photoelectric Materials and Devices Center

ResearchDirection
Silicon photonics; Silicon coherent receivers; Mode, polarization and wavelength processing devices
Selected Publications

[1]. H. Wang, Y. Zhang*, Y. He, et al. "Compact silicon waveguide mode converter employing dielectric metasurface structure," Advanced Optical Materials, Invited paper, 2018, Accepted.

[2]. Y. He, Y. Zhang*, H. Wang, et al. "On-chip silicon mode blocking filter employing subwavelength-grating based contra-directional coupler," Optics Express, 2018, Accepted.

[3]. Y. He, Y. Zhang*, Q. Zhu, et al. "Silicon High-Order Mode (De)Multiplexer on Single Polarization," IEEE/OSA J. Lightw. Technol., 2018, Accepted.

[4]. Y. Zhang, Y. He, Q. Zhu, et al. "Single-resonance silicon nanobeam filter with an ultra-high thermo-optic tuning efficiency over a wide continuous tuning range," Opt. Lett., 43(18): 4518-4521 (2018).

[5]. Y. Zhang, Y. He, Q. Zhu, et al. “On-chip silicon polarization and mode handling devices,” Frontiers of Optoelectronics, 11(1): 77–91 (2018). (邀请综述论文)

[6]. Y. Zhang, Y. He, Q. Zhu, et al. "On-chip silicon photonic 2 × 2 mode- and polarization- selective switch with low inter-modal crosstalk," Photon. Res., 5(5): 521-526 (2017).

[7]. B. Liu, Y. Zhang*, Y. He, et al. "Silicon photonic bandpass filter based on apodized subwavelength grating with high suppression ratio and short coupling length," Opt. Express, 25(10): 11359-11364 (2017).

[8]. Y. Zhang, Y. He, X. Jiang, et al. "Ultra-compact and highly efficient silicon polarization splitter and rotator," APL Photon., 1(9): 091304 (2016).

[9]. Y. Zhang, Y. He, J. Wu, et al. "High-extinction-ratio silicon polarization beam splitter with tolerance to waveguide width and coupling length variations," Opt. Express, 24(6): 6586-6593 (2016).

[10]. Y. Zhang, D. Li, J. Xia, et al. "Slow-Light Dispersion in One-Dimensional Photonic Crystal Racetrack Ring Resonator." IEEE Photon. Tech. Lett., 27(10):1120-1123 (2015).

[11]. Y. Zhang, C. Zeng, J. Xia, et al. "Single-Mode Emission from Ge Quantum Dots in Photonic Crystal Nanobeam Cavity." IEEE Photon. Tech. Lett., 27(9): 1026-1029 (2015).

[12]. C. Gui+, Y. Zhang+, J. Xia, J. Wang, et al. "Experimental demonstration of analog signal transmission in a silicon photonic crystal L3 resonator." Opt. Express, 23 (10): 13916-13923 (2015).

[13]. S Yan+, Y. Zhang+, J Dong, J Xia, et al. "Operation Bandwidth Optimization of Photonic Differentiators." Opt. Express, 23 (15): 18925-18936 (2015).

[14]. Y. Zhang, D. Li, J. Xia, et al. "Low Power and Large Modulation Depth Optical Bistability in an Si Photonic Crystal L3 Cavity." IEEE Photon. Tech. Lett., 26 (23): 2399-2402 (2014).

[15]. Y. Zhang, C. Zeng, J. Xia, et al. "Enhanced light emission from Ge quantum dots in photonic crystal ring resonator." Opt. Express, 22 (10): 12248-12254 (2014).

[16]. Y. Zhang, D. Li, J. Xia, et al. "Silicon optical diode based on cascaded photonic crystal cavities." Opt. Lett., 39 (6): 1370-1373 (2014).

[17]. Y. Zhang, C. Zeng, J. Xia, et al. "High-quality-factor photonic crystal ring resonator." Opt. Lett., 39 (5): 1282-1285 (2014).

[18]. Y. Zhang, C. Zeng, J. Xia, et al. "Enhanced 1524-nm Emission From Ge Quantum Dots in a Modified Photonic Crystal L3 Cavity." IEEE Photon. J., 5 (5): 4500607 (2013).

[19]. Y. Zhang, D. Li, J. Xia, et al. "Ultralow Power Nonlinear Response in an Si Photonic Crystal Nanocavity." IEEE Photon. J., 5 (4): 6601409 (2013).