池灝(浙江大學教授)

2000年10月至2001年6月在香港理工大學任研究助理。

2001年7月至2003年6月在上海交通大學做博士後研究。

2003年7月起在浙江大學信息與電子工程學系任教，同年12月評定為副教授。

2006年5月至2008年2月在加拿大渥太華大學做訪問研究。2008年12月晉升為教授，2010年1月被評為博士生導師。

光纖電子學、光子信號處理等方面。

主要研究興趣包括無線與光融合網路、射頻與光子信息處理、光通信與網路技術、新型光電感知和信息獲取技術等。學科為電子科學與技術。

主要研究興趣：微波光子學、光子信號處理、光通信與光感測等等

Selected publications (Journal):

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.

2.Y. L. Chen, S. Zheng, Y. Li, X. Hui, X. Jin, H. Chi, and X. Zhang, A Flat-Lensed Spiral Phase Plate Based on Phase-Shifting Surface for Generation of Millimeter-Wave OAM Beam, IEEE Antennas and Wireless Propagation Letters, Vol. 15, pp.1156-1158, 2016.

3.X. Hui, S. Zheng, w. Zhang, X. Jin, H. Chi, and X. Zhang, Local topological charge analysis of electromagnetic vortex beam based on empirical mode decomposition, Optics Express, Vol. 24, No.5, pp.5423-5430, March 2016.

4.Z. Zhu, H. Chi, T. Jin, S. Zheng, X. Jin, and X. Zhang, Photonic compressive sensing for analog-to-information conversion with a delay-line based microwave photonic filter, Optics Communications, Vol.371, pp.83-88, July 2016.

5.C. Xu, S. Zheng, X. Chen, H. Chi, X. Jin, and X. Zhang, Photonic-assisted time-interleaved ADC based on optical delay line, Journal of Optics, Vol.18, No.1, Jan. 2016.

6.Z. Zhang, S. Zheng, Y. Chen, X. Jin, H. Chi, and X. Zhang, The Capacity Gain of Orbital Angular Momentum Based Multiple-Input-Multiple-Output System, Scientific Reports, Vol.6, DOI: 10.1038/srep25418, May 2016.

7.Y. Zhu, J. Zhou, X. Jin, H. Chi, X. Zhang, and S. Zheng, An optoelectronic oscillator‐based strain sensor with extended measurement range, Microwave and Optical Technology Letters, Vol. 57, pp. 2336-2339, Oct. 2015.

8.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.

9.S. Qu, T. Jin, H. Chi, G. Tong, F. Ren, and X. Zhao, An optoelectronic oscillator using an FBG and an FBG-based Fabry-Perot filter, Optics Communications, Vol. 342, pp.141-143, May 2015

10.X. Zhao, T. Jin, H. Chi, and S. Qu, Modeling and simulation of the background light in underwater imaging under different illumination conditions, Acta, Physica Sinica, Vol.64, No.10, pp.104201, May 2015. In Chinese

11.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.

12.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.

13.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.

14.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.

15.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.

16.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.

17.Y. Chen, X. Yu, H. Chi, S. Zheng, X. Zhang, X. Jin, and M. Galili, Compressive sensing with a microwave photonic filter, Optics Communications, Vol. 338, pp.428-432, March 2015

18.X. Hui, S. Zheng, J. Zhou, H. Chi, X. Jin, and X. Zhang, Hilbert-Huang Transform Time-Frequency Analysis in phi-OTDR Distributed Sensor, IEEE Photonics Technology Letters, Vol. 26, No. 23, pp. 2403-2406, Dec. 2014.

19.Y. Xu, Z. Shi, H. Chi, X. Jin, S. Zheng, and X. Zhang, Relaxed dispersion requirement in the generation of chirped RF signals based on frequency-to-time mapping, Optics Communications, Vol.331, pp278-281, Nov. 2014.

20.X. Hui, T. Ye, S. Zheng, J. Zhou, H. Chi, X. Jin, and X. Zhang, Space-frequency analysis with parallel computing in a phase-sensitive optical time-domain reflectometer distributed sensor, Applied Optics, Vol. 53, No. 28, pp. 6586-6590, Oct. 2014.

21.Y. Zhu, X. Jin, H. Chi, S. Zheng, and X. Zhang, High-sensitivity temperature sensor based on an optoelectronic oscillator, Applied Optics, Vol. 53, Vol. 22, pp.5084-5087, Aug. 2014.

22.Y. Pan, S. Zheng, J. Zhou, H. Chi, X. Jin, and X. Zhang, Analyses of Whispering Gallery Modes in Circular Resonators by Transmission Line Theory, IEEE/OSA Journal of Lightwave Technology, Vol.32, No. 13, pp.2345-2352, July 2014

23.Y. Mei, T. Jin, H. Chi, S. Zheng, X. Jin, and X. Zhang, Optoelectronic oscillator with phase-shifted fiber Bragg grating, Optics Communications, Vol.319, pp.117-120, May 2014.

24.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.

25.Y. Mei, Y. Xu, H. Chi, X. Zhang, X. Jin, S. Zheng, and T. Jin, Photonic generation of chirped microwave signals with high time-bandwidth product, Optics Communications, Vol.316, pp106-110, April 2014.

26.W. Xu, T. Jin, and H. Chi, Frequency multiplying optoelectronic oscillator based on nonlinearly-coupled double loops, Optics Express, Vol.21, No.26, pp.32516-32523, Dec. 2013.

27.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.

28.B. Yang, X. Jin, Y. Chen, H. Chi, X. Zhang, S. Zheng, E. Tangdiongga, T. Koonen, Photonic Microwave Up-Conversion of Vector Signals Based on an Optoelectronic Oscillator, IEEE Photonics Technology Letters, Vol.25, No.18, pp.1758-1761, Sept. 2013.

29.F. Zhou, X. Jin, B. Yang, J. Zhou, X. Zhou, S. Zheng, and H. Chi, Photonic generation of frequency quadrupling signal for millimeter-wave communication, Optics Communications, Vol.304, pp.71-74, Sept. 2013.

30.Y. Wang, X. Jin, H. Chi, X. Zhang, and S. Zheng, Tunable multi-tap microwave photonic filter with complex coefficients using a dual-parallel Mach-Zehnder modulator, Journal of Modern Optics, Vol.60, No.13, pp.1069-1073, July 2013.

31.X. Shi, S. Zheng, H. Chi, X. Jin, and X. Zhang, All-optical modulator with long range surface plasmon resonance, Optics and Laser Technology, Vol.49, pp.316-319, July 2013.

32.Bo Yang, Xiaofeng Jin, Ying Chen, Jinhai Zhou, Xianmin Zhang, Shilie Zheng, Hao Chi, A Tunable Optoelectronic Oscillator Based on a Dispersion-Induced Microwave Photonic Filter, IEEE Photonics Technology Letters, Vol.25, No.10, pp.921-924, May 2013.

33.Ying Chen, Bo Yang, Hao Chi, Xiaofeng Jin, Shilie Zheng, and Xianmin Zhang, Photonic instantaneous frequency measurement with digital output based on dispersion induced power fading functions, Optics Communications, Vol.292, No.1, pp. 53–56, April 2013.

34.Y. Qiao, M. Pan, S. Zheng, H. Chi, X. Jin, and X. Zhang, An electrically tunable frequency-doubling optoelectronic oscillator with operation based on stimulated Brillouin scattering, Journal of Optics, Vol.15, No.3, March 2013.

35.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.

36.H. Chi, Y. Chen, Y. Mei, X. Jin, S. Zheng, and X. Zhang, Microwave spectrum sensing based on photonic time stretch and compressive sampling, Optics Letters, Vol. 38, No. 2, pp.136-138, Jan. 2013.

37.Y. Chen, H. Chi, S. Zheng, X. Jin, X. Zhang Photonic analog-to-digital converter basedon the robust symmetrical number system, Optics Communications, Vol.285, No.24, pp. 4966–4970, Nov. 2012.

38.X. Jin,J. Ou, R. Hao, F. Zhou, X.Zhang, S.Zheng, H. Chi, Novel Demodulation Method for Fiber-Optic Interferometers Based on pi/2 Phase Modulation, IEEE Photonics Technology Letters,Vol.24, No.22,pp.1981-1983, Nov. 2012.

39.H. Chi, Y. Mei, Y. Chen, D. Wang, S. Zheng, X. Jin, and X. Zhang, Microwave spectral analysis based on photonic compressive sampling with random demodulation, Optics Letters, Vol. 37, No. 22, pp.4636-4638, Nov. 2012.

40.S. Zheng, S. Ge, X. Zhang, H. Chi, and X. Jin, High-resolution multiple microwave frequency measurement based on stimulated Brillouin scattering, IEEE Photonics Technology Letters, Vol.24, Vol.13, pp.1115-1117, July 2012.

41.X. Shi, S. Zheng, H. Chi, X. Jin, and X. Zhang*, All-optical modulator with long range surface Plasmon resonance, Optics & Laser Technology, Vol.44, No.5, pp.1442-1445, July 2012.

42.B. Yang, X. Jin, H. Chi, X. Zhang, and S. Zheng, Optically tunable frequency-doubling optoelectronic oscillator with carrier phase-shifted double sideband modulation, IEEE Photonics Technology Letters, Vol.24, No.12, pp.1051-1053, June 2012.

43.Z. Li, Y. Han, H. Chi, X. Zhang, and J. P. Yao, A continuously tunable microwave fractional Hibert transformer based on a nonuniformly spaced photonic microwave delay-line filter, Journal of Lightwave Technology, Vol.30, No.12, pp.1948-1953, June 2012.

44.Z. Li, X. Zhang*, H. Chi, S. Zheng, X. Jin, and J. P. Yao, A reconfigurable microwave photonic channelized receiver based on dense wavelength division multiplexing using an optical comb, Optics Communications, Vol.285, No.9, pp.2311-2315, May 2012.

45.X. Shi, S. Zheng, H. Chi, X. Jin, and X. Zhang, Refractive index sensor based on tilted fiber Bragg grating and stimulated Brillouin scattering, Optics Express, Vol.20, No.10, pp.10853-10858, May 2012.

46.W. Kang, S. Zheng, X. Zhang, X. Jin, H. Chi, and Y. Zou, Quadratic electro-optic properties of Pb(Mg1/3Nb2/3)O-3-PbTiO3 transparent ceramics under both DC and AC bias, Applied Optics, Vol.51, No.15, pp.2870-2876, May 2012.

47.H. Shao, W. Chen, Y. Zhao, H. Chi, J. Yang, and X. Jiang, Performance evaluation of photonic UWB generation based on silicon MZM, Optics Express, Vol.20, No.7, pp.7398-7403, Mar. 2012.

48.B. Yang, X. Jin, X. Zhang, S. Zheng, H. Chi, Y. Wang, A Wideband Frequency-Tunable Optoelectronic Oscillator based on a Narrowband Phase-Shifted FBG and Wavelength tuning of Laser, IEEE Photonics Technology Letters,Vol.24, No.1, pp.73-75, Jan. 2012.

49.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.

50.X. L. Shi, S. L. Zheng, H. Chi, X. F. Jin, and X. M. Zhang, A wideband electro-optic modulator based on long range surface plasmon resonances, Journal of Optics, Vol.13, No.12, pp.1-5, Dec. 2011.

51.Z. Li, H. Chi, X. Zhang, and J. P. Yao, A Continuously Tunable Microwave Fractional Hilbert Transformer Based on a Photonic Microwave Delay-Line Filter Using a Polarization Modulator, IEEE Photonics Technology Letters, Vol.23, No.22, pp.1694-1696, Nov. 2011.

52.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.

53.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.

54.Yun Wang, Juan Ni, Hao Chi, Xianmin Zhang, Shilie Zheng, and Xiaofeng Jin, Photonic Instantaneous Microwave Frequency Measurement Based on Two Different Phase Modulation to Intensity Modulation Conversions, Optics Communications, vol.284, no.16-17, pp.3928-3932, Aug. 2011.

55.Z. Li, C. Wang, M. Li, H. Chi, X. Zhang, and J. P. Yao, Instantaneous microwave frequency measurement using a special fiber Bragg grating, IEEE Microwave and Wireless Components Letters, vol.21, no.1, pp.52-54, Jan. 2011.

56.Z. Li, H. Chi, X. Zhang, and J. P. Yao, Pulse distortions due to third-order dispersion and dispersion mismatches in a phase-modulator-based temporal pulse shaping system,IEEE/OSA Journal of Lightwave Technology, Vol.28, No.19, pp.2865-2872, Oct. 2010.

57.Yubin Ji, Shilie Zheng, Ze Li, Xiaofeng Jin, Xianmin Zhang, and Hao Chi, Tunable fiber fabry-perot filter for PM-IM conversion and efficiency improvement in radio-over-fiber links, Microwave and Optical Technology Letters, Vol.52, No.9, pp.2090-2095, Sept. 2010.

58.Jun Ji, Shilie Zheng, Xiaofeng Jin, Xianmin Zhang, Hao Chi, and Yingyin Kevin Zou, Optical variable gain tilt filter with temperature compensation, Microwave and Optical Technology Letters, Vol.52, No.8, pp.1906-1909, Aug.2010.

59.Lan Liu, Shilie Zheng, Xianmin Zhang, Xiaofeng Jin, and Hao Chi, Performances improvement in raido over fiber link through carrier suppression using stimulated Brillouin scattering, Optics Express, Vol.18, No.11, pp.11827-11837, May 2010.

60.J. Ni, B. Chen, S. L. Zheng, X. M. Zhang, X. F. Jin, and H. Chi, Ultra-wideband bandpass filter with notched band based on electrooptic phase modulator and phase-shift fiber Bragg grating, Journal of Electromagnetic Waves and Application, Vol.24, No.5-6, pp.795-802, June 2010.

61.Ze Li, Bo Yang, Hao Chi, Xianmin Zhang, Shilie Zheng, Xiaofeng Jin, Photonic instantaneous measurement of microwave frequency using fiber Bragg grating, Optics Communications, Vol.283, No.3, pp.396-399, Feb. 2010.

62.Fei Zhang, Xiaofeng Jin, Xianmin Zhang, Shilie Zheng, Hao Chi, Yingyin Kevin Zou, and Jianping Yao, Fibre-optic comb filter with tunable central wavelength and channel islation at sub-microsecond speed, Electronics Letters, Vol.46, No.1, pp.71-72, Jan. 2010.

63.L. Liu, S. L. Zheng, X. M. Zhang, X. F. Jin, and H. Chi, Performance improvement of phase modulation with interferometeric detection through low-biasing, Journal of Electromagnetic Waves and Applications, Vol.24, No.1, pp.123-132, Jan. 2010.

64.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.

65.Xiaomin Zhang, Hao Chi, Xianmin Zhang, Shilie Zheng, Xiaofeng Jin, and Jianping Yao, Instantaneous Microwave Frequency Measurement Using an Optical Phase Modulator, IEEE Microwave and Wireless Components Letters, Vol.19, No.6, pp.422-424, June 2009.

66.X. Zou,H. Chi, and J. P. Yao, Microwave frequency measurement based on optical power monitoring using a complementary optical filter pair, IEEE Transactions on Microwave Theory and Techniques, Vol.57, No.2, pp.505-511, Feb. 2009.

67.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.

68.B. Chen, S. L. Zheng, X. M. Zhang, X. M. Zhang, X. F. Jin, and H. Chi, Simultaneously realizing PM-IM conversion and efficiency improvement of fiber-optic links using FBG, Journal of Electromagnetic Waves and Applications, Vol.23, No.2-3 , pp.161-170, 2009.

69.Shuna Yang, Zhigu Shi, Hao Chi; Xianmin Zhang, Shilie Zheng, Xiaofeng Jin, and Jianping Yao, Photonic Analog-to-Digital Conversion using Multiple Comparators and Mach-Zehnder Modulators with Identical Half-Wave Voltage, Optics Communications, Vol.282, No.4, pp.504-507, Feb. 2009.

70.Yang Liu, Hao Chi, Xianmin Zhang, Xiaofeng Jin, and Shilie Zheng, A Novel Control Scheme for 4-Plate Retardation Polarization Controller, Microwave and Optical Technology Letters, Vol.51, No.1, pp.124-128, Jan. 2009.

71.X. M. Zhang, S. L. Zheng, L. Liu, X. M. Liu, X. M. Zhang, X. F. Jin and H. Chi, Flattened frequency response using fiber Bragg grating V-shape filter in radio over fiber links, Journal of Electromagnetic Waves and Applications, Vol.22, No.14-15, pp.2053-2061, 2008.

72.B. Chen, S. Zheng, H. Chi, X. Zhang, and X. Jin, An optical millimeter-wave generation technique based on phase modulation and Brillouin-assisted notch-filtering, IEEE Photonics Technology Letters, Vol.20, No.24, pp.2057-2059, Dec. 2008.

73.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.

74.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.

75.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.

76.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.

77.Hao Chi, Xianmin Zhang and Jianping Yao, A Novel Wavelength Shift Keying Transmitter using a Pair of Mach-Zehnder Modulators, Optics Communications, Vol.281, No.9, pp.2517-2521, May 2008.

78.Minglei Gong, Hao Chi, Xianmin Zhang, Xiaofeng Jin, and Yingyin K Zou, Reconfigurable Microwave Photonic Transversal Filter Using a Variable Gain Tilt Filter, Optics Communications, Vol.281, No.5, pp.998-1002, March 2008.

79.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.

80.Guo-Feng Shen, Xian-Min Zhang, Hao Chi, Xiao-Feng Jin, Microwave/millimeter-wave generation using multi-wavelength photonic crystal fiber Brillouin laser, Progress in Electromagnetics Research (PIER), Vol.80, No.1, pp.307-329, Jan.2008.

81.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.

82.H. Chi and J. P. Yao, Fiber chromatic dispersion measurement based on wavelength-to-time mapping using a femtosecond pulse laser and an optical comb filter, Optics Communications, Vol.280, No.2, pp.337-342, Dec.2007.

83.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.

84.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.

85.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.

86.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.

87.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, March2007.

88.Wei Jiang, Linfang Shen, Daru Chen and Hao Chi, An extended FDTD method with inclusion of material dispersion for the full-vectorial analysis of photonic crystal fibers, IEEE/OSA Journal of Lightwave Technology, Vol.24, No.11, pp.4417-4423, Nov. 2006.

89.Daru Chen, Shan Qin, Linfang Shen, Hao Chi and Sailing He, An all-fiber multi-wavelength Raman laser based on a PCF sagnac loop filter, Microwave & Optical Technology Letters, Vol.48, No.12, pp.2416-2418, Sept. 2006.

90.Qiaoqiao Cheng, Xiaofeng Jin, Hao Chi and Xianming Zhang, Tunable Fiber Fabry-Perot Filter for Optical Carrier-Suppression and Single-Sideband Modulation in Radio over Fiber Links, International Journal of Infrared and Millimeter Waves, Vol.27, No.3, pp.381-390, March 2006.

91.X. Jin, H. Chi and X. Zhang, Improving frequency response of radio over fibre system by fibre Bragg grating, Electronics Letters, Vol.42, No.6 pp.369-370, March 2006.

92.Jinyue Lu, Hao Chi, Xianmin Zhang and Linfang Shen, Noise reduction using photonic microwave filter for radio over fiber system, Microwave & Optical Technology Letters, Vol.48, No.2, pp.305-307, Feb. 2006.

93.Chi Hao, Zhang Xianmin and Shen Linfang, Design of photonic crystal fibers with anomalous dispersion, Optoelectronics Letters, Vol.2, No.1, pp.1-4, Jan. 2006.

94.Xianbin Yu, Xianmin Zhang, Hao Chi, and Kangsheng Chen, A flexible and incoherent microwave photonic filter with a flat-top passband, Microwave & Optical Technology Letters, Vol.46, No.2, pp.132-134, July 2005.

95.Xianbin Yu, Xianmin Zhang, Hao Chi, and Kangsheng Chen, Photonic Microwave Transversal Filter Employing a Fiber-Bragg-Grating-Based Resonator, Microwave & Optical Technology Letters, Vol.44, No.4, pp.369-371, April 2005.

96.Yu Xianbin, Zhang Xianmin, Chi Hao, Chen Kangsheng, Characteristics of a tunable microwave photonics notch filter based on two fiber Bragg gratings, Chinese Journal of Electronics, Vol.14, No.1, pp.184-186, Jan 2005.

97.Hao Chi and Xianmin Zhang, A novel tunable fiber-optic microwave notch filter using fiber loop and cascaded fiber Bragg gratings, Microwave & Optical Technology Letters, Vol.41, No.5, pp.386-388, June 2004.

98.Chi Hao, Zeng Qingji, Zhao Huandong, Luo Jiangtao, and Zhang Zhizhong, Scheduling algorithms for OBS switch with shared buffer, IEICE Transaction on Communications, Vol.E86-B, No.7, pp.2220-2223, July 2003.

99.Jun Huang,Qingji Zeng,Hao Chi,Pengcheng Xiao,Jimin Liu,Hua Liu, Performance analysis of a novel architecture for contention resolution of optical packet switching, Chinese Optics Letters, Vol.1, No.6, pp.314-316, June 2003.

100.CHI Hao, ZENG Qingji, Zhao Huandong, Liu Hua, Xiao Shilin, Analysis on Dispersion Characteristics of Photonic Crystal Fiber, Journal of Infrared and Millimeter Waves, Vol.22, No.2, pp.149-153, Feb. 2003.

101.Jianxin Wang,Qingji Zeng,Zhizhong Zhang,Hao Chi, Differentiated services supporting scheme for optical burst switched networks, Chinese Optics Letters, Vol.1, No.7, pp.392-394, Jan. 2003.

102.Chi H, Tao XM, Yang DX, Chen KS, Simultaneous measurement of axial strain, temperature, and transverse load by a superstructure fiber grating, Optics Letters, Vol.26, No.24, pp.1949-1951, Dec. 2001.