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Acta Physica Sinica, Volume. 69, Issue 17, 175201-1(2020)

Drift wave in strong collisional dusty magnetoplasma

Jian-Rong Yang1,2、*, Jie-Jian Mao1,2、*, Qi-Cheng Wu1, Ping Liu3, and Li Huang1
Author Affiliations
  • 1School of Physics and Electronics, Shangrao Normal University, Shangrao 334001, China
  • 2Engineering Technology Research Center of Intelligent Electric Vehicle Components of Jiangxi Province, Shangrao 334001, China
  • 3College of Electron and Information Engineering, University of Electronic Science and Technology of China Zhongshan Institute, Zhongshan 528402, China
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    Figures & Tables(13)
    Variation of the real dispersion frequency with the wave number k and drift velocity v determined by Eq. (14) for . Other parameters are given in Eq. (11).

    Fig. 1. Variation of the real dispersion frequency with the wave number k and drift velocity v determined by Eq. (14) for . Other parameters are given in Eq. (11).

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    Variation of the real dispersion frequency with the wave number k and obliqueness angle determined by Eq. (14), and the parameters given in Eq. (11).

    Fig. 2. Variation of the real dispersion frequency with the wave number k and obliqueness angle determined by Eq. (14), and the parameters given in Eq. (11).

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    Variation of the real dispersion frequency with the wave number k and the dust density determined by Eq. (14) for . Other parameters are given in Eq. (11).

    Fig. 3. Variation of the real dispersion frequency with the wave number k and the dust density determined by Eq. (14) for . Other parameters are given in Eq. (11).

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    Variation of the real dispersion frequency with the wave number k and magnetic field determined by Eq. (14) for . Other parameters are given in Eq. (11).

    Fig. 4. Variation of the real dispersion frequency with the wave number k and magnetic field determined by Eq. (14) for . Other parameters are given in Eq. (11).

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    Variation of the imaginary dispersion frequency with the wave number k and the collision frequency determined by Eq. (15) for . Other parameters are given in Eq. (11).

    Fig. 5. Variation of the imaginary dispersion frequency with the wave number k and the collision frequency determined by Eq. (15) for . Other parameters are given in Eq. (11).

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    Variation of the shock wave with the dust density by Eq.(18) for , . Other parameters are given in Eq. (11).

    Fig. 6. Variation of the shock wave with the dust density by Eq.(18) for , . Other parameters are given in Eq. (11).

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    Variation of the shock wave with the collision frequency by Eq.(18) for , . Other parameters are given in Eq. (11).

    Fig. 7. Variation of the shock wave with the collision frequency by Eq.(18) for , . Other parameters are given in Eq. (11).

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    Variation of the shock wave with the drift velocity v by Eq.(18) for , . Other parameters are given in Eq. (11).

    Fig. 8. Variation of the shock wave with the drift velocity v by Eq.(18) for , . Other parameters are given in Eq. (11).

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    Variation of the shock wave with the magnetic field by Eq.(18) for , . Other parameters are given in Eq. (11).

    Fig. 9. Variation of the shock wave with the magnetic field by Eq.(18) for , . Other parameters are given in Eq. (11).

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    Profile of the explosive wave by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

    Fig. 10. Profile of the explosive wave by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

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    Profile of the explosive wave given by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

    Fig. 11. Profile of the explosive wave given by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

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    Profile of the explosive wave given by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

    Fig. 12. Profile of the explosive wave given by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

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    Profile of the explosive wave given by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

    Fig. 13. Profile of the explosive wave given by Eq. (19) with , , (solid line), and (dash line). Other parameters are given in Eq. (11).

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    Jian-Rong Yang, Jie-Jian Mao, Qi-Cheng Wu, Ping Liu, Li Huang. Drift wave in strong collisional dusty magnetoplasma[J]. Acta Physica Sinica, 2020, 69(17): 175201-1

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    Paper Information

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    Received: Mar. 30, 2020

    Accepted: --

    Published Online: Jan. 4, 2021

    The Author Email: Jie-Jian Mao (maojj2006@163.com)

    DOI:10.7498/aps.69.20200468

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