Volume 36 Issue 6
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LING Yunfei, CHEN Changxing, JIANG Jin. Properties of C-Band Wave Propagation in Plasma Sheath with Different Incidence Angle[J]. Chinese Journal of Space Science, 2016, 36(6): 904-908. doi: 10.11728/cjss2016.06.904
Citation: LING Yunfei, CHEN Changxing, JIANG Jin. Properties of C-Band Wave Propagation in Plasma Sheath with Different Incidence Angle[J]. Chinese Journal of Space Science, 2016, 36(6): 904-908. doi: 10.11728/cjss2016.06.904
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Properties of C-Band Wave Propagation in Plasma Sheath with Different Incidence Angle

doi: 10.11728/cjss2016.06.904 cstr: 32142.14.cjss2016.06.904

  • Science College, Air Force Engineering University, Xi'an 710051

  • Received Date: 2015-09-10
  • Rev Recd Date: 2016-03-02
  • Publish Date: 2016-11-15
    Abstract
  • In order to solve the problem of communication blackout in near space, the influence of different incident angles on the electromagnetic wave propagation characteristics of C-wave band (4~8GHz) in plasma sheath is studied. The transmission performance of C-band electromagnetic wave are calculated and compared by using the numerical method with a uniform plasma model and a Gaussian distributed plasma model, respectively. Analysis results show that the increase of the incident wave frequency and the decrease of incidence angle are beneficial to reduce the attenuation value of the C-band, and to increase the transmissivity, which makes the communication electromagnetic wave more effectively in penetrating the plasma sheath. The conclusion provides a theoretical basis for solving the problem of communication blackout in near space.

     

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    • References(18)
  • [1]
    SHI Lei, GUO Baolong, LIU Yanming, et al. Research on integrated channel model for near-space hypersonic vehicle[J]. J. Astron., 2011, 23(7):1557-1563
    [2]
    TIAN Bailing, FAN Wenru, SU Rui, et al. Real-time trajectory and attitude coordination control for reusable launch vehicle in reentry phase[J]. IEEE Trans. Indust. Electron., 2015, 62(3):1639-1649
    [3]
    CHATTERJEE K, John R R, SINGH S. A new Green's function Monte Carlo algorithm for the solution of the two-dimensional nonlinear Poisson-Boltzmann equation: application to the modeling of the communication breakdown problem in space vehicles during re-entry[J]. J. Comput. Phys., 2014, 276(7):479-485
    [4]
    SHARIFIAN M, SADEGHI Y. FDTD study of the effects of the doubly ionized ions on the plasma immersion ion implantation process[J]. Plasma Phys., 2014, 80(2):215
    [5]
    LI Jin, PI Yiming, YANG Xiaobo. A conception on the terahertz communication system for plasma sheath penetration[J]. Wireless Comm. Mobile Comput., 2014, 14:1252-1258
    [6]
    LI Jiangting, GUO Lixin, JIN Shasha, et al. EM wave propagation characteristic in plasma sheath[J]. Chin. J. Radio Sci., 2011, 26(3):494-500
    [7]
    SUN Xin, LIU Yanan, LIU Yimin, et al. Study on the transmission properties of plasma sheath based on transfer matrix method[J]. Chin. J. Space Sci., 2014, 34(2):194
    [8]
    KIM M, KEIDAR M, IAIN D B. Electrostatic manipulation of a hypersonic plasma layer: images of the two-dimensional sheath[J]. IEEE Trans. Plasma Sci., 2008, 36(4):1198-1199
    [9]
    KEIDAR M, KIM M, BOYD I D. Electromagnetic reduction of plasma density during atmospheric reentry and hypersonic flight[J]. Spacer. Rockets, 2008, 45(3):445-453
    [10]
    CHEN Yuxun, ZHAO Qing, BO Yong, et al. Numerical simulation and experimental verification of electromagnetic transmission characteristics of plasma sheath[J]. High Power Laser Particle Beams, 2015, 27(3):032-041
    [11]
    GAO Xiaotian, JIANG Binhao. A matching approach to communicate through the plasma sheath surrounding a hypersonic vehicle[J]. J. Appl. Phys., 2015, 117(23):1-25
    [12]
    CHALISE R, KHANAL R. The study of kinetic energy of ion and sheath thickness in magnetized plasma sheath[J]. J. Mater. Sci. Eng., 2015, A5(1/2):41-46
    [13]
    CHEN Changxing, JIANG Jin, LING Yunfei, et al. Aperture coupled antenna design for near space communication in Ka/V dual-band[J]. J. Astron., 2015, 36(8):940-944
    [14]
    LING Yunfei, CHEN Changxing, JIANG Jin. Analysis of terahertz wave propagation in near space plasma sheath[J]. J. Air Force Eng. Univ.: Nat. Sci., 2016, 17(2):50-56
    [15]
    CUI Junxia, SHI Huli, TIAN Bingli. Rainfall effects on CAPS micro mobile satellite terminal communication system[J]. Commun. Technol., 2009, 42(6):8-10
    [16]
    SHI Lei. On Nearspace Vehicle Channel Characteristic[D]. Xi'an: Xi'an Electronic and Engineering University[D], 2012
    [17]
    ZHENG Ling. Study of Electromagnetic Wave Propagation in Spacecraft Plasma Sheath[D]. Xi'an: Xi'an Electronic and Engineering University, 2013
    [18]
    National Aeronautics and Space Administration. The Entry Plasma Sheath and its Effects on Space Vehicle Electromagnetic Systems[R]. Washington DC: NASA, 1970
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