|
| |
| Associate Professor | |
| Address: Room 512, Xie Xin Building, Gulou Campus, Nanjing University | |
| Tel: 025-83597544-512 | |
| Email: yjsong@nju.edu.cn | |
| Lab Homepage: http://ocer.nju.edu.cn | |
| Research Fields: Theory and application of plasma optics microcavity; fiber nonlinear laser; optical fiber sensing; optical fiber communications
Courses: Optoelectronic Technology; Photoelectric Instrument Principle and Experiment; Fiber Nonlinear Optics; Guided Wave Optics; Optical Fiber Communication System
Profile: Song Yuejiang is an associate professor at Nanjing University. He received his doctorate from Shanghai Jiao Tong University before he was selected into Nanjing University’s training program for key young teachers, and he was a visiting scholar at UC Irvine in 2013. He is currently a member of the Optoelectronics Committee of the Chinese Optical Society, a senior member of the Chinese Optical Society, and a member of the Optical Society of America. He has taken charge of 4 projects entrusted by the National Natural Science Foundation and the Post-doctoral Fund among others and has participated in the research work of several projects supported by, for instance, Major Instruments Project of the National Natural Science Foundation of China, the National Natural Science Foundation of China, and Huawei Scientific Research Fund. His primary research interests include the theory and application of plasmas optics microcavity, fiber nonlinear laser, optic fiber sensing, and optic fiber communications. He has published more than 40 papers in PRA, Opt. Lett., Opt. Express and other journals, has applied for/obtained more than 10 invention patents, and has won one first prize of the National Technology Invention Award of the Ministry of Education (participation).
Research Results Publications: [1] Cai, S., Xiang, Y., Miao, Y., Li, M., Peng, Y., & Song, Y. (2016). Mode coupling in metal-coated microsphere. Optics Express, 24, 013832. [2] Li, M., Li, B., Song, Y., Zhang, X., Chang, L., & Liu, J. (2015). Investigation of costas loop synchronization effect on BER performance of space uplink optical communication system with BPSK scheme. IEEE Photonics Journal, 7, 1-9. [3] Li, M., Jiao, W., Liu, X., Song, Y., & Chang, L. (2015). A method for peak seeking of BOTDR based on the incomplete Brillouin spectrum. IEEE Photonics Journal, 7, 1-10. [4] Li, M., Jiao, W., Song, Y., Zhang, X., Dong, S., & Poo, Y. (2014). Investigation of the EDFA effect on the BER performance in space uplink optical communication under the atmospheric turbulence. Optics Express, 22, 25354-25361. [5] Gu, J., Zhang, Z., Li, M., & Song, Y. (2014). Mode characteristics of metal-coated microcavity. Physical Review A, 90, 013816. [6] Yin, C., Gu, J., Li, M., & Song, Y. (2013). Tunable high-Q tapered silica microcylinder filter. Chinese Optics Letters, 11, 082302. [7] Ding, J. C., Li, M., Tang, M. H., Li, Y., & Song, Y. J. (2013). The performance of MSK in downlink of ground-to-satellite laser communication systems. Applied Mechanics and Materials, 411, 757-760. [8] Ding, J., Li, M., Tang, M., Li, Y., & Song, Y. (2013). BER performance of MSK in ground-to-satellite uplink optical communication under the influence of atmospheric turbulence and detector noise. Optics Letters, 38, 3488-3491. [9] Zhang, X., Wang, R., Song, Y., Wu, J., & Sarma, A. K. (2012). Multi-channel broadband Brillouin slow light with multiple longitudinal mode pump. Journal of Lightwave Technology, 30, 49-53. [10] Zhang, X., Song, Y., & Lu, L. (2012). Time division multiplexing optical time domain reflectometry based on dual frequency probe. IEEE Photonics Technology Letters, 24, 2005-2008. [11] Wang, R., Song, Y., & Zhang, X. (2012). Broadband Brillouin slow light with multiple-longitudinal-mode, tunable pump. Chinese Optics Letters, 10, 081401. [12] Lv, L., Song, Y., Zhu, F., & Zhang, X. (2012). Performance limit of a multi-frequency probe based coherent optical time domain reflectometry caused by nonlinear effects. Chinese Optics Letters, 10, 040604. [13] Lu, L., Song, Y., Zhu, F., & Zhang, X. (2012). Coherent optical time domain reflectometry using three frequency multiplexing probe. Optics and Lasers in Engineering, 50, 1735-1739. [14] Lu, L., Song, Y., Zhu, F., & Zhang, X. (2012). Dual frequency probe based coherent optical time domain reflectometry. Optics Communications, 285, 2492-2495. [15] Lu, L., Song, Y., Zhang, X., & Zhu, F. (2012). Frequency division multiplexing OTDR with fast signal processing. Optics & Laser Technology, 44, 2206-2209. [16] Li, M., Ma, J., Zhang, X., Song, Y., & Du, W. (2012). Investigation of black box model for erbium-doped fiber amplifiers in space radiation environment. Journal of Lightwave Technology, 30, 3667-3671.
| |
