Researching

Journals
  • Advanced Photonics
  • Photonics Insights
  • Advanced Photonics Nexus
  • Photonics Research
  • Advanced Imaging
  • View All Journals
  • Chinese Optics Letters
  • High Power Laser Science and Engineering
    • Articles
  • Optics
  • Physics
  • Geography
  • View All Subjects
    • Conferences
  • CIOP
  • HPLSE
  • AP
  • View All Events
    • News
    About CLP
    Search by keywords or author
    Journals >Chinese Optics Letters >Volume 20 >Issue 8 >Page 083901 > Article
    • Chinese Optics Letters
    • Vol. 20, Issue 8, 083901 (2022)
    Stimulated-Brillouin-scattering-based arbitrarily phase coded microwave waveform transmitter with anti-dispersion transmission
    Sha Zhu1, Kunpeng Zhai2、3, Wei Li2、3, and Ning Hua Zhu2、3、*
    Author Affiliations
  • 1College of Microelectronics, Faculty of Information Technology, Beijing University of Technology, Beijing 100124, China
  • 2State Key Laboratory on Integrated Optoelectronics, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China
  • 3School of Electronic, Electrical and Communication Engineering, Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
    • show less
    DOI: 10.3788/COL202220.083901 Cite this Article Set citation alerts
    Sha Zhu, Kunpeng Zhai, Wei Li, Ning Hua Zhu. Stimulated-Brillouin-scattering-based arbitrarily phase coded microwave waveform transmitter with anti-dispersion transmission[J]. Chinese Optics Letters, 2022, 20(8): 083901 Copy Citation Text show less
    References

    [1] D. K. Barton. Modern Radar System Analysis(1988).

    [2] N. Levanon. Radar Principles(1988).

    [3] J. Capmany, D. Novak. Microwave photonics combines two worlds. Nat. Photonics, 1, 319(2007).

    [4] J. Ye, L. Yan, Z. Chen, W. Pan, B. Luo, X. Zou, S. Yao. Photonic generation of microwave phase-coded signals based on frequency-to-time conversion. IEEE Photon. Technol. Lett., 24, 1527(2012).

    [5] J. D. McKinney, D. E. Leaird, A. M. Weiner. Millimeter-wave arbitrary waveform generation with a direct space-to-time pulse shaper. Opt. Lett., 27, 1345(2002).

    [6] S. Zhu, X. Fan, M. Li, N. Zhu, W. Li. Photonic generation and transmission of phase-modulated microwave signals. Proc. SPIE, 11182, 111820B(2019).

    [7] Z. Tang, T. Zhang, F. Zhang, S. Pan. Photonic generation of a phase-coded microwave signal based on a single dual-drive Mach–Zehnder modulator. Opt. Lett., 38, 5365(2013).

    [8] C. Song, M. Lei, J. Qian, Z. Zheng, S. Huang, X. Gao. All-optical generation of binary phase-coded microwave pulses without baseband components based on a dual-parallel Mach–Zehnder modulator. Opt. Express, 27, 20064(2019).

    [9] H. Jiang, L. Yan, J. Ye, W. Pan, B. Luo, X. Zou. Photonic generation of phase-coded microwave signals with tunable carrier frequency. Opt. Lett., 38, 1361(2013).

    [10] S. Liu, D. Zhu, Z. Wei, L. Pan. Photonic generation of widely tunable phase-coded microwave signals based on a dual-parallel polarization modulator. Opt. Lett., 39, 3958(2014).

    [11] W. Li, W. Wang, W. Sun, N. Zhu. All-optical generation of binary phase coded microwave signal based on cross-polarization modulation in a highly nonlinear fiber. Opt. Lett., 39, 1561(2014).

    [12] D. Chu. Polyphase codes with good periodic correlation properties. IEEE Trans. Inf. Theory, 18, 531(1972).

    [13] Y. Zhang, F. Zhang, S. Pan. Generation of frequency-multiplied and phase-coded signal using an optical polarization division multiplexing modulator. IEEE Trans. Microw. Theory and Techn., 65, 651(2016).

    [14] X. Li, S. Zhao, Z. Zhu, K. Qu, T. Lin, S. Pan. Frequency-octupled phase-coded signal generation based on carrier-suppressed high-order double sideband modulation. Chin. Opt. Lett., 15, 070603(2017).

    [15] A. Nirmalathas, P. A. Gamage, C. Lim, D. Novak, R. Waterhouse, Y. Yang. Digitized RF transmission over fiber. IEEE Microw. Mag., 10, 75(2009).

    [16] Y. Bai, M. Lei, Z. Zheng, J. Qian, X. Song, Z. Su, S. Huang. Wideband and dispersion immune microwave photonic phase shifter with tunable optical carrier to sideband ratio. J. Light. Technol., 38, 5262(2020).

    Data from CrossRef

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [1] Wenyou Gou, Xin Zhang, Wei Dong, Zhuohang Zhang, Taolin Liu, Jianghua Zhang, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    [2] Xin Zhang, Jianghua Zhang, Shuo Chen, Wenyou Gou, Zhuohang Zhang, Meili Shen, Jie Yang, Lei Huang, Wei Dong, Tian Jiang.

    Full Text
    Get PDF
    Figures&Tables (7)
    Equations (13)
    References (16)
    Cited By (8)
    Get Citation
    Copy Citation Text
    Sha Zhu, Kunpeng Zhai, Wei Li, Ning Hua Zhu. Stimulated-Brillouin-scattering-based arbitrarily phase coded microwave waveform transmitter with anti-dispersion transmission[J]. Chinese Optics Letters, 2022, 20(8): 083901
    Download Citation
    EndNote(RIS)
    BibTex
    Plain Text
    Set citation alerts for the article
    Tools
    Share
    Set citation alerts for the article
    Save the article for my favorites
    Paper Information
    Recommended Topics
    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology