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    Journals >Acta Photonica Sinica >Volume 49 >Issue 4 >Page 0426001 > Article
    • Acta Photonica Sinica
    • Vol. 49, Issue 4, 0426001 (2020)
    Interaction of Dark Rogue Waves
    Ren GAO, Juan-fen WANG*, Xuan ZHANG, Ling-zhen YANG, and Zhao-xia ZHANG
    Author Affiliations
  • College of Physics and Optoelectronics, Taiyuan University of Technology, Taiyuan 030600, China
    • show less
    DOI: 10.3788/gzxb20204904.0426001 Cite this Article
    Ren GAO, Juan-fen WANG, Xuan ZHANG, Ling-zhen YANG, Zhao-xia ZHANG. Interaction of Dark Rogue Waves[J]. Acta Photonica Sinica, 2020, 49(4): 0426001 Copy Citation Text show less
    The first-order exact dark rogue wavesolution. The initial parameters are given by a1=a2=1, δ=\begin{document}$ \sqrt 3 $\end{document} and κ=-1/2
    Fig. 1. The first-order exact dark rogue wavesolution. The initial parameters are given by a1=a2=1, δ=Unknown environment 'document' and κ=-1/2
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    The transmission evolution of the initial input waveform shown in equation (4) in the fiber. The parameters are given by r=1, b=0 and T1=5
    Fig. 2. The transmission evolution of the initial input waveform shown in equation (4) in the fiber. The parameters are given by r=1, b=0 and T1=5
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    The transmission evolution of two adjacent in-phase first-order dark rogue waves with different intervals T1
    Fig. 3. The transmission evolution of two adjacent in-phase first-order dark rogue waves with different intervals T1
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    The three dimensional stereogram of "twisted" dark rogue wave in the black frame of Fig. 3(a)
    Fig. 4. The three dimensional stereogram of "twisted" dark rogue wave in the black frame of Fig. 3(a)
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    The transmission evolution of two adjacent out of-phase first-order dark rogue waves with different intervals T1, the other parameters are the same as in Fig. 2
    Fig. 5. The transmission evolution of two adjacent out of-phase first-order dark rogue waves with different intervals T1, the other parameters are the same as in Fig. 2
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    The interaction of two in-phase first-order dark rogue waves with different amplitude coefficients r
    Fig. 6. The interaction of two in-phase first-order dark rogue waves with different amplitude coefficients r
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    The transmission evolution of the second-order dark rogue wave with composite structure in single-mode fiber
    Fig. 7. The transmission evolution of the second-order dark rogue wave with composite structure in single-mode fiber
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    The transmission evolution of the second-order dark rogue wave with triplet (or three-sister) structure in single-mode fiber
    Fig. 8. The transmission evolution of the second-order dark rogue wave with triplet (or three-sister) structure in single-mode fiber
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    Ren GAO, Juan-fen WANG, Xuan ZHANG, Ling-zhen YANG, Zhao-xia ZHANG. Interaction of Dark Rogue Waves[J]. Acta Photonica Sinica, 2020, 49(4): 0426001
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