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Beam blocked and truncated by the receiver causes serious power losses in beam uplink propagation in a relay mirror system. We propose a method to improve power efficiency of beam uplink propagation in the relay mirror system by using vortex source and phase optimization. A typical model of beam uplink propagation in the relay mirror system is established. With this model, the principle of the method is theoretically analyzed, and power efficiencies of beam uplink propagation under different conditions are calculated. The calculation results show that power efficiency of beam uplink propagation can be improved from 86.44% to 97.86% by using vortex source and phase optimization. A reduced-scale experiment of beam uplink propagation in the relay mirror system under the "closed-loop" mode is performed, and the experimental results show that power efficiency can be improved from 71.89% to 91.59% by using the vortex source and phase optimization.
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Tom
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597--611
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Bibliogr. 21 poz., rys., tab.
Bibliografia
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- [5] DUFF E.A., WASHBURN D.C., The magic of relay mirrors, Proceedings of SPIE 5413, 2004, p. 137.
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- [7] JOHNSON S.L., Beam Control of Extremely Agile Relaying Laser Source for Bifocal Relay Mirror Spacecraft, Naval Postgraduate School, Monterey, California, 2006, pp. 31–33.
- [8] Boeing Demonstrates Aerospace Relay Mirror System, St. Louis MO, http://www.spacewar.com/reports/, August 18, 2006.
- [9] SIMPSON J., Tactical laser relay mirror demonstration anticipated before 2011, Inside The Air Force 18(41), 2007, pp. 3–7.
- [10] REN GUOGUANG, Current situation and development trend of high energy laser weapon, Laser and Optoelectronics Progress 45(9), 2008, pp. 62–69.
- [11] MANSELL J.D., Beam shaping for relay mirrors, Proceedings of SPIE 6290, 2006, article 62900K.
- [12] PU ZHOU, XIAOJUN XU, ZEJIN LIU, XIUXIANG CHU, Improving the power coupling efficiency in a relay mirror system using a multiple laser array, Optics and Laser Technology 42(2), 2010, pp. 392–396.
- [13] BAHABAD A., ARIE A., Generation of optical vortex beams by nonlinear wave mixing, Optics Express 15(26), 2007, pp. 17619–17624.
- [14] KRISHNA INAVALLI V.V.G., NIRMAL K. VISWANATHAN, Switchable vector vortex beam generation using an optical fiber, Optics Communications 283(6), 2010, pp. 861–864.
- [15] SHU-CHUN CHU, TAKAYUKI OHTOMO, KENJU OTSUKA, Generation of doughnut like vortex beam with tunable orbital angular momentum from lasers with controlled Hermite–Gaussian modes, Applied Optics 47(14), 2008, pp. 2583–2591.
- [16] ZIYANG CHEN, JIXIONG PU, Stochastic electromagnetic vortex beam and its propagation, Physics Letters A 372(15), 2008, pp. 2734–2740
- [17] LU XUANHUI, HUANG HUIQIN, ZHAO CHENGLIANG, WANG JIANGFENG, CHEN HE, Optical vortex beams and optical vortices, Laser and Optoelectronics Progress 45(1), 2008, pp. 50–56.
- [18] LI YANG-YUE, LIU HUI, PU JI-XIONG, Analysis of diffraction characteristics of vortex beam through the circular aperture, Chinese Journal of Quantum Electronics 27(4), 2010, pp. 393–396.
- [19] HUIYUN WU, HAICHUAN ZHAO, XIAOJUN XU, WUMING WU, JINBAO CHEN, YIJUN ZHAO, Beam shaping for uplink transmission of a relay mirror system, Applied Optics 49(17), 2010, pp. 3245–3249.
- [20] VORONTSOV M.A., SIVOKON V.P., Stochastic parallel-gradient-descent technique for high-resolution wave-front phase-distortion correction, Journal of the Optical Society of America A 15(10), 1998,pp. 2745–2758.
- [21] NOLL R.J., Zernike polynomials and atmospheric turbulence, Journal of the Optical Society of America 66(3), 1976, pp. 207–211.
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Bibliografia
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bwmeta1.element.baztech-article-BPW7-0027-0014