https://orcid.org/0000-0003-3143-1527/print

Jounal Articles

  1. Yu Y, Li S, Liao J, et al. Improving suppression ratio of microwave photonic filters using high-precision spectral shaping[J]. OPTICAL ENGINEERING, 2015,54(0505015).
  2. Gao X, Huang S, Song Y, Li S, et al. Generating the orbital angular momentum of radio frequency signals using optical-true-time-delay unit based on optical spectrum processor[J]. OPTICS LETTERS, 2014,39(9):2652-2655.
  3. Zou D, Zheng X, Li S, et al. Idler-free microwave photonic mixer integrated with a widely tunable and highly selective microwave photonic filter[J]. OPTICS LETTERS, 2014,39(13):3954-3957.
  4. Zheng X, Zhang G, Li S, et al. All-optical signal processing for linearity enhancement of Mach-Zehnder modulators[J]. CHINESE SCIENCE BULLETIN, 2014,59(22):2655-2660.
  5. Zou D, Zheng X, Li S, et al. Tunable single bandpass microwave photonic filter using polarization-orthogonal optical carrier time shift[J]. OPTICS COMMUNICATIONS, 2014,326:150-154.
  6. Liao J, Zheng X, Li S, et al. High-efficiency microwave photonic harmonic down-conversion with tunable and reconfigurable filtering[J]. OPTICS LETTERS, 2014,39(23):6565-6568.
  7. Zou D, Zheng X, Li S, et al. High-Q microwave photonic filter with self-phase modulation spectrum broadening and third-order dispersion compensation[J]. CHINESE OPTICS LETTERS, 2014,12(0806018).
  8. Li L, Zhang G Q, Zheng X P, et al. Phase Noise Suppression for Single-Sideband Modulation Radio-Over-Fiber Systems Adopting Optical Spectrum Processing[J]. IEEE PHOTONICS TECHNOLOGY LETTERS, 2013,25(11):1024-1026.
  9. Wei F, Li S Y, Zheng X P, et al. Improvement of Optically Generated Adjacent Channel Interference in RoF Systems[J]. IEEE PHOTONICS TECHNOLOGY LETTERS, 2013,25(12):1137-1140.
  10. Song Y L, Li S Y, Zheng X P, et al. True time-delay line with high resolution and wide range employing dispersion and optical spectrum processing[J]. OPTICS LETTERS, 2013,38(17):3245-3248.
  11. Zhang G Q, Li S Y, Zheng X P, et al. Dynamic range improvement strategy for Mach-Zehnder modulators in microwave/millimeter-wave ROF links[J]. OPTICS EXPRESS, 2012,20(15):17214-17219.
  12. Zhang G Q, Zheng X P, Li S Y, et al. Postcompensation for nonlinearity of Mach-Zehnder modulator in radio-over-fiber system based on second-order optical sideband processing[J]. OPTICS LETTERS, 2012,37(5):806-808.
  13. Li L, Zhang G Q, Zheng X P, et al. Suppression for dispersion induced phase noise of an optically generated millimeter wave employing optical spectrum processing[J]. OPTICS LETTERS, 2012,37(19):3987-3989.
  14. Yu J Y, Li S Y, Zheng X P, et al. Highly linear transmission and EVM improvement of vector modulation signals for radio-over-fiber applications[J]. CHINESE OPTICS LETTERS, 2012,10(10060610).
  15. Li S Y, Zheng X P, Zhang H Y, et al. Compensation of dispersion-induced power fading for highly linear radio-over-fiber link using carrier phase-shifted double sideband modulation[J]. OPTICS LETTERS, 2011,36(4):546-548.
  16. Li S Y, Zheng X P, Zhang H Y, et al. Highly Linear Radio-Over-Fiber System Incorporating a Single-Drive Dual-Parallel Mach-Zehnder Modulator[J]. IEEE PHOTONICS TECHNOLOGY LETTERS, 2010,22(24):1775-1777.
  17. Wu X, Zheng X P, Li S Y, et al. Multisideband Detection Radio-Over-Fiber Link With Phase Modulation and Fiber Demodulation for Vector Signal Transmission[J]. IEEE PHOTONICS TECHNOLOGY LETTERS, 2010,22(2):76-78.

Conferences

  1. Zou D, Liao J, Zheng X, Li S, et al. Widely tunable microwave photonic filter with improved dynamic range. in 2014 OPTOELECTRONICS AND COMMUNICATIONS CONFERENCE AND AUSTRALIAN CONFERENCE ON OPTICAL FIBRE TECHNOLOGY (OECC/ACOFT 2014), 2014:195-197.
  2. S. Y. Li, X. P. Zheng, F. Wei, H. Y. Zhang, and B. K. Zhou, Carrier phase and amplitude manipulation for linearization and dispersion compensation in radio-over-fiber systems using Mach-Zehnder modulator, in Progress in Electromagnetics Research Symposium (PIER) 2013, (INVITED), pp1310-1314, Stockholm, Sweden, 2013.
  3. S. Y. Li, X. P. Zheng, H. Y. Zhang, and B. K. Zhou, Measurement of the Third Order Intercept Point for a Photodiode Using Two Maximum-biased MZM, in Conference on Laser and Electro-Optics (CLEO) 2013, San Jose, USA, May, 2013.
  4. S. Y. Li, X. P. Zheng, H. Y. Zhang, and B. K. Zhou, Microwave Photonic Transmitter using Broadband Optical Source with Suppressed Noise Floor, in Asia-Pacific Microwave Photonics Conference (APMP), 2013, Gwangju, Korea, PB-9, April, 2013.
  5. Li S Y, Zheng X P, Zhang H Y and Zhou B K, Carrier to Interference Ratio Improvement by Digital Predistortion of Mach-Zehnder Modulator in Radio-over-Fiber Link, in Asia-Pacific Microwave Photonics Conference (APMP) 2012, PB-12, Kyoto, Japan, April, 2012.
  6. Li S Y, Zheng X P, Zhang H Y and Zhou B K, Highly Linear Millimeter-Wave over Fiber Transmitter with Subcarrier Upconversion, in CLEO/QELS 2011, JWA3, Baltimore, Maryland, USA, May 2011.
  7. Li S Y, Zheng X P and Zhang H Y, Dispersion Induced Fading Frequency Shifting Technology in Radio-over-Fiber Link. in MWP2010, TH4-26, Montreal, Canada, Oct., 2010.
  8. Li S Y, Zheng X P and Zhang H Y, Hybrid Transmission System Integrating Baseband Digital Signal and Ultra-wideband Pulses, in APMP2010, TB2-5, Hong Kong, April, 2010.
  9. Li S Y, Zheng X P, He Wen, Zhang H Y and Zhou B K, Tunable Subcarrier Frequency Up-conversion in Millimetre-Wave Band Using Photonic Crystal Fibers, The 14th OptoElectronics and Communications Conference (OECC 2009), WJ6, Hong Kong, July, 2009.
  10. Li S Y, Zheng X P, Zhang H Y and Zhou B K, Generation and Modulation of 2.5Gbps Ultra-Wideband Monocycle Pulses from Non-Return-to-Zero Data, The 8th Pacific Rim Conference on Lasers and Electro-Optics (CLEO/PR 2009), ThH3-3, Shanghai, China, August 2009.
  11. Li S Y, Ye Y B, Zheng X P, Zhang H Y, Data-Carried Optical Ultra-Wideband Monocycle Pulses Generation using Two DGD Modules, in Proceedings of Asia-Pacific Optical Communication Conference (APOC) 2008, 7136-135, Hangzhou, China, Oct. 2008.
  12. Li S Y, Song Y Q, Zheng X P, Zhang H Y, Zhou B K, All-Optical Subcarrier Phase Modulation for WDM Radio-over-Fiber System, in CLEO/QELS 2008, JWA104, San Jose, USA, May 2008.
  13. Li S Y, Zheng X P, Zhang H Y, Optical ultra-wideband pulse generation using air-guiding photonic bandgap fiber and a semiconductor optical amplifier, in AOE 2007, SC1.S1.4, Shanghai, China, Oct. 2007.
  14. Li S Y, Zheng X P, Zhou B K, Simultaneous multi-wavelength optical SSB generation for WDM radio-over-fiber systems using a DGD element and a polarizer, in APOC2006, 6353-104, Gwangju, Korea, Sept. 2006. (EI: 20065210332731)
  15. X. P. Zheng, S. Y. Li, G. Q. Zhang, H. Y. Zhang, and B. K. Zhou, “Linearization Technologies and Dispersion Compensation Methods for RoF System by Trimming Optical Spectra,” in Asia-Pacific Microwave Photonics Conference (APMP) 2013, TuA-1, Gwangju, Korea, 2013.
  16. Luo J H, Li S Y, Zheng X P, Zhang H Y, and Zhou B K, Cascaded Polynomial Nonlinearity Model for Microwave Photonic System, in Asia Communications and Photonics Conference (ACP) 2013, AF2F.74, Beijing, China, November, 2013.
  17. Zhang G Q, Zheng X P, Li S Y, Zhang H Y and Zhou B K, Millimeter-wave over fiber transmitter with subcarrier upconversion and nonlinear compensation, in Asia-Pacific Microwave Photonics Conference (APMP) 2012, PA-23, Kyoto, Japan, April, 2012.
  18. Xi Wu, Zheng X P, Li S Y, He Wen, and Zhang H Y, Vector Signal Transmission in Radio-over-Fiber Link Employing Optical Multi-Sidebands Modulation Scheme, OFC2010, OML2, San Diego, CA, USA, March, 2010.
  19. Xi Wu, Zheng X P, Li S Y, Zhang H Y, Impact and improvement of power balance on optical beamforming networks, The Asian Pacific Conference on Microwave Photonics, Hong Kong, April, 2010.