Research Projects

 

  1. Remote photo-acoustic key technologies for shallow-sea topographic survey, supported by the National Science and Technology Support Program, 2012.01-2015.12, Project leader: Prof. Xiaofeng Jin
  2. Key technology of low phase-noise millimeter wave opto-electronic oscillators, supported by the National Natural Science Foundation, 2014.01.01-2017.12.03, Project leader: Prof. Xiaofeng Jin
  3. Multiband tunable microwave photonic signal processing with high precision, supported by the National Basic Research Program of China (973 Program), Project leader: Prof. Xiaofeng Jin
  4. Propagation and communication systems employing radio frequency orbital angular momentum wave, supported by the National Program on Key Basic Research Project of China (973 Program), 2014-2018, Project leader: Prof. Xianmin Zhang
  5. Integrated passive devices for orbital angular momentum communication systems, supported by the National Program on Key Basic Research Project of China (973 Program), 2014-2018, Project leader: Asso. Prof. Shilie Zheng
  6. Receiver scheme of vortex electromagnetic waves, Supported by the National High-tech R&D Program of China (863 Program), 2015-2016, Project leader: Asso. Prof. Shilie Zheng
  7. Plain spiral orbital angular momentum wave and its applications, supported by the National Natural Science Foundation, 2016.01-2019.12, Project leader: Asso. Prof. Shilie Zheng
  8. Photonics-assisted technologies for receiving vortex millimeter wave, supported by the National Natural Science Foundation, 2014.01-2017.12, Project leader: Prof. Xianmin Zhang
  9. Novel coaxial fiber radio frequency antennas, supported by the National Natural Science Foundation, 2012.01-2015.12, Project leader: Asso. Prof. Shilie Zheng
  10. All-optical generation of widely tunable microwave/millimeter wave based on dual-band microchip laser, supported by the National Natural Science Foundation, 2011.01-2013.12, Project leader: Prof. Xianmin Zhang
  11. Project supported by the Natural Science Foundation of Zhejiang Province for Distinguished Young Scholar, 2010.01-2012.12, Project leader: Prof. Xianmin Zhang
  12. Intra-body communication based on electro-optic reception technology, supported by the National Natural Science Foundation, 2009.01-2011.12, Project leader: Asso. Shilie Zheng
  13. Several key technologies for photonic compressive sensing, supported by the National Natural Science Foundation, 2016.01 – 2019.12,Project leader: Prof. Hao Chi
  14. Theoretical and experimental analysis on photonics radio frequency spectrum, supported by the National Natural Science Foundation, 2012.01- 2015.12, Project leader: Prof. Hao Chi
  15. Several key issues on microwave photonic signal processing, Program for New Century Excellent Talents in University of Ministry of Education of China, 2011.01 – 2013.12, Project leader: Prof. Hao Chi
  16. Photonic generation of broadband microwave/ mimllimeter-wave, supported by the National Natural Science Foundation, 2009.01-2011.12, Project leader: Prof. Hao Chi

Publications

 

—— 2016 ——

  1. Y. Xu, T. Jin, H. Chi, S. Zheng, X. Jin, and X. Zhang, Time-Frequency Uncertainty in the Photonic A/D Converters Based on Spectral Encoding, IEEE Photonics Technology Letters, Vol. 28, No. 8, pp. 841-844, April 2016.

—— 2015 ——

  1. Y. Mei, T. Jin, H. Chi, S. Zheng, X. Jin, and X. Zhang, Characterization of the photonic generation of phase-coded RF signals based on pulse shaping and frequency-to-time mapping, Applied Optics, Vol. 54, No.13, pp. 3956-3962, May 2015.
  2. Z. Zhu, H. Chi, S. Zheng, T. Jin, X. Jin, and X. Zhang, Analysis of compressive sensing with optical mixing using a spatial light modulator, Applied Optics, Vol. 54, No. 8, pp. 1894-1899, March 2015.
  3. Xiannan Hui, Shilie Zheng, Yiling Chen, Yiping Hu, Xiaofeng Jin, Hao Chi, and Xianmin Zhang, Multiplexed millimeter wave communication with dual orbital angular momentum (OAM) mode antennas, Scientific Reports, Vol. 5, 10148, May 19, 2015.
  4. Shilie Zheng, Xiaonan Hui, Jiangbo Zhu, Hao Chi, Xiaofeng Jin, Siyuan Yu, and Xianmin Zhang, Orbital angular momentum mode-demultiplexing scheme with partial angular receiving aperture, Optics Express, Vol. 23, No. 9, May 4, 2015, pp. 12251-12257.
  5. Yi Wang, Xiaofeng Jin, Yanhong Zhu, Xianmin Zhang, Shilie Zheng, Hao Chi, A wideband tunable optoelectronic oscillator based on a spectral-subtraction-induced MPF, IEEE Photonics Technology Letters, Vol. 27, No. 9, May 1, 2015, pp. 947-950.
  6. Yuan Mei, Tao Jin, Hao Chi, Shilie Zheng, Xiaofeng Jin, and Xianmin Zhang, Characterization of the photonic generation of phase-coded RF signals based on pulse shaping and frequency-to-time mapping, Applied Optics, Vol. 54, No. 13, May 1, 2015, pp. 3956-3962.
  7. Xiaonan Hui, Shilie Zheng, Yiping Hu, Chen Xu, Xiaofeng Jin, Hao Chi, and Xianmin Zhang, Ultralow reflectivity spiral phase plate for generation of millimeter-wave OAM beam, IEEE Antennas and Wireless Propagation Letters, Vol. 14, April 2015, pp. 966-969.
  8. Shilie Zheng, Xiaonan Hui, Xiaofeng Jin, and Hao Chi, and Xianmin Zhang, Transmission characteristics of a twisted radio wave based on circular traveling-wave antenna, IEEE Transactions on Antennas and Propagation, Vol. 63, No. 4, April 2015, pp. 1530-1536.
  9. Zhijing Zhu, Hao Chi, Shilie Zheng, Tao Jin, Xiaofeng Jin, and Xianmin Zhang, Analysis of compressive sensing with optical mixing using spatial light modulator, Applied Optics, Vol. 54, No. 8, March 10, 2015, pp. 1894-1899.
  10. Ying Chen, Xianbin Yu, Hao Chi, Shilie Zheng, Xianmin Zhang, Xiaofeng Jin, and Michael Galili, Compressive sensing with a microwave photonic filter, Optics Communications, Vol. 338, 2015, pp.428–432.

—— Before 2015 ——

  1. Y. Chen, X. Yu. H. Chi, X. Jin, X. Zhang, S. Zheng, and M. Galili, Compressive sensing in a photonic link with optical integration, Optics Letters, Vol.39, No.8, pp. 2222-2224, April 2014.
  2. Y. Chen, H. Chi, T. Jin, S. Zheng, X. Jin, and X. Zhang, Sub-Nyquist Sampled Analog-to-Digital Conversion Based on Photonic Time Stretch and Compressive Sensing With Optical Random Mixing, Journal of Lightwave Technology, Vol.31, No.21, pp.3395-3401, Nov. 2013.
  3. Hao Chi, Ying Chen, Yuan Mei, Xiaofeng Jin, Shilie Zheng, and Xianmin Zhang, Microwave spectrum sensing based on photonic time stretch and compressive sampling, Optics Letters, Vol. 38, No. 2, pp.136-138, Jan. 2013.
  4. Hao Chi, Yuan Mei, Ying Chen, Donghui Wang, Shilie Zheng, Xiaofeng Jin, and Xianmin Zhang, Microwave spectral analysis based on photonic compressive sampling with random demodulation, Optics Letters, Vol. 37, No. 22, pp.4636-4638, Nov. 2012.
  5. Ying Chen, Hao Chi, Xianmin Zhang, Shilie Zheng, and Xiaofeng Jin, Differentially- Encoded Photonic Analog-to-Digital Conversion based on Phase Modulation and Interferometric Demodulation, IEEE Photonics Technology Letters, Vol.23, No.24, pp. 1890-1892, Dec. 2011.
  6. Yun Wang, Hao Chi, Xianmin Zhang, Shilie Zheng, and Xiaofeng Jin, Photonic approach for microwave spectral analysis based on Fourier cosine transform, Optics Letters, vol. 36, no.19, pp.3897-3899, Oct. 2011.
  7. H. Chi, Z. Li, X. Zhang, S. Zheng, X. Jin, and J. P. Yao, Proposal for photonic quantization with differential encoding using a phase modulator and delay-line interferometers, Optics Letters, vol.36, no.9, pp.1629-1631, May 2011.
  8. Shuna Yang, Chao Wang, Hao Chi, Xianmin Zhang, Shilie Zheng, Xiaofeng Jin and Jianping Yao, Photonic analog-to-digital converter using Mach-Zehnder modulators having identical half-wave voltages with improved bit resolution, Applied Optics, Vol.48, No.22, pp.4458-4467, Aug. 2009.
  9. H. Chi, X. Zou and J. P. Yao, Analytical models for phase-modulation-based microwave photonic systems with phase modulation to intensity modulation conversion using a dispersive device, IEEE/OSA Journal of Lightwave Technology, Vol.27, No.5, pp.511-521, March 2009.
  10. Hao Chi, Jianping Yao, Frequency quadrupling and upconversion in a radio over fiber link, IEEE/OSA Journal of Lightwave Technology, Vol.26, No.15, pp.2706-2711, Aug. 2008.
  11. H. Chi, X. Zou and J. P. Yao, An approach to the measurement of microwave frequency based on optical power monitoring, IEEE Photonics Technology Letters, Vol.20, No.17, pp.1249-1251, July 2008.
  12. H. Chi and J. P. Yao, Chirped RF pulse generation based on optical spectral shaping and wavelength-to-time mapping using a nonlinearly chirped fiber Bragg grating, IEEE/OSA Journal of Lightwave Technology, Vol.26, No.10, pp.1282-1287, May 2008.
  13. H. Chi and J. P. Yao, Photonic Generation of Phase-Coded Millimeter-Wave Signal Using a Polarization Modulator, IEEE Microwave and Wireless Components Letters, Vol.18, No.5, pp.371-373, May 2008.
  14. H. Chi and J. P. Yao, Power distribution of phase-modulated microwave signals in a dispersive fiber-optic link, IEEE Photonics Technology Letters, Vol.20, No.4, pp.315-317, Feb. 2008.
  15. H. Chi and J. P. Yao, A photonic analog-to-digital conversion scheme using Mach-Zehnder modulators with identical half-wave voltages, Optics Express, Vol.16, No.2, pp.567-574, Jan. 2008.
  16. H. Chi and J. P. Yao, Waveform distortions due to second-order dispersion and dispersion mismatches in a temporal pulse shaping system, IEEE/OSA Journal of Lightwave Technology, vol. 25, no.11, pp.3528-3535, November 2007.
  17. H. Chi and J. P. Yao, All-fiber chirped microwave pulse generation based on spectral shaping and wavelength-to-time conversion, IEEE Transactions on Microwave Theory and Techniques, vol. 55, no. 9, pp. 1958-1963, September 2007.
  18. H. Chi and J. P. Yao, An approach to photonic generation of high-frequency phase-coded RF pulses, IEEE Photonics Technology Letters, vol. 19, no. 10, pp. 768-770, May 2007.
  19. H. Chi, F. Zeng, and J. P. Yao, Photonic generation of microwave signals based on pulse shaping, IEEE Photonics Technology Letters, vol. 19, no. 9, pp. 668-670, May 2007.
  20. H. Chi and J. P. Yao, Symmetrical waveform generation based on temporal pulse shaping using an amplitude-only modulator, Electronics Letters, vol. 43, no. 7, pp. 415-417, March 2007.

 

—— 2015 ——

  1. X. Yu*, R. Asif, M. Piels, D. Zibar, Galili, T. Morioka, P. Uhd Jepsen, L. K. Oxenløwe, 60Gbit/s 400GHz wireless transmission, Photonics in Switching 2015, Postdeadline paper PDP1, Florence, Italy, 2015 September 22-25.
  2. Yu*, M. Galili, T. Morioka, P. Uhd Jepsen, L. K. Oxenløwe, Towards ultrahigh speed impulse radio THz wireless communications, 2015 International Conference on transparent optical networks (ICTON 2015), Invited talk, Budapest, Hungary, 2015 July 5-9.
  3. Yu*, Borja Vidal, M. Galili, T. Morioka, P. Uhd Jepsen, L. K. Oxenløwe, Experimental characterization of extremely broadband THz impulse radio systems, Paper W1E4, 40th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THZ 2015), Hong Kong, 2015 August 25-28.
  4. Yu*, L. K. Oxenløwe, TWIST: THz wireless information systems and technologies, 16th edition of the International Symposium on RFMEMS and RF-MICROSYSTEMS (MEMSWAVE 2015), Invited talk, Barcelona, Spain, 2015 June 29-July 1st.
  5. Yu*, M. Galili, T. Morioka, P. Uhd Jepsen, L. K. Oxenløwe, Ultrafast THz impulse radio communications, 4th Annual World Congress of Advanced Materials-2015 (WCAM2015), Invited talk, Chongqing, China, 2015 May 27-29.
  6. Yu*, X. Zhang, Fundamental analysis of extremely fast photonic THz wireless communication systems, IEEE 8th International Conference on Advanced Infocomm Technology (ICAIT 2015), Invited talk, Hangzhou, China, 2015 October 25-27.