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首页> 外文期刊>The Astrophysical Journal. Supplement Series >Identification of Magnetic Flux Ropes from Parker Solar Probe Observations during the First Encounter
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Identification of Magnetic Flux Ropes from Parker Solar Probe Observations during the First Encounter

机译:在第一次遭遇期间识别帕克太阳能探头观测的磁通量绳索

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The Parker Solar Probe (PSP) observed an interplanetary coronal mass ejection (ICME) event during its first orbit around the Sun, among many other events. This event is analyzed by applying a wavelet analysis technique to obtain the reduced magnetic helicity, cross helicity, and residual energy, the first two of which are magnetohydrodynamics (MHD) invariants. Our results show that the ICME, as a large-scale magnetic flux rope, possesses high magnetic helicity, very low cross helicity, and highly negative residual energy, thus pointing to a magnetic fluctuation dominated structure. Using the same technique, we also search for small-scale coherent magnetic flux rope structures during the period from 2018 October 22 to November 21, which are intrinsic to quasi-two-dimensional MHD turbulence in the solar wind. Multiple structures with durations between 8 and 300 minutes are identified from PSP in situ spacecraft measurements. The location and scales of these structures are characterized by wavelet spectrograms of the normalized reduced magnetic helicity, normalized cross helicity, and normalized residual energy. Transport theory suggests that these small-scale magnetic flux ropes may contribute to the acceleration of charged particles through magnetic reconnection processes, and the dissipation of these structures may be important for understanding the coronal heating processes.
机译:帕克太阳能探头(PSP)在阳光周围的第一个轨道期间观察了行星际冠状群体(ICME)事件,其中包括许多其他事件。通过应用小波分析技术来分析该事件以获得减少的磁螺旋,交叉螺旋和剩余能量,其中前两个是磁性流体动力学(MHD)不变。我们的研究结果表明,作为大型磁通绳索的ICME具有高磁螺旋,非常低的十字螺旋度和高度负剩余能量,从而指向磁波动占主导地位结构。使用相同的技术,我们还在10月22日至11月21日的2018年期间搜索小规模的相干磁通绳结构,这是太阳风中的准二维MHD湍流的固有。从PSP识别出8至300分钟之间的多个结构,原位航天器测量值。这些结构的位置和尺度的特征在于归一化降低的磁螺旋,归一化的十字螺旋和归一化残余能量的小波谱图。运输理论表明,这些小型磁通量绳索可以通过磁性重新连接过程有助于加速带电粒子,并且这些结构的耗散对于理解冠状加热过程可能是重要的。

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    Zhao L. -L.; Zank G. P.; Adhikari L.; Hu Q.; Kasper J. C.; Bale S. D.; Korreck K. E.; Case A. W.; Stevens M.; Bonnell J. W.; de Wit T. Dudok; Goetz K.; Harvey P. R.; MacDowall R. J.; Malaspina D. M.; Pulupa M.; Larson D. E.; Livi R.; Whittlesey P.; Klein K. G.;

  • 作者单位

    Univ Alabama Huntsville Ctr Space Plasma &

    Aeron Res CSPAR Huntsville AL 35805 USA;

    Univ Alabama Huntsville Ctr Space Plasma &

    Aeron Res CSPAR Huntsville AL 35805 USA;

    Univ Alabama Huntsville Ctr Space Plasma &

    Aeron Res CSPAR Huntsville AL 35805 USA;

    Univ Alabama Huntsville Ctr Space Plasma &

    Aeron Res CSPAR Huntsville AL 35805 USA;

    Univ Michigan Dept Climate &

    Space Sci &

    Engn Ann Arbor MI 48109 USA;

    Univ Calif Berkeley Dept Phys Berkeley CA 94720 USA;

    Smithsonian Astrophys Observ Cambridge MA 02138 USA;

    Smithsonian Astrophys Observ Cambridge MA 02138 USA;

    Smithsonian Astrophys Observ Cambridge MA 02138 USA;

    Univ Calif Berkeley Space Sci Lab Berkeley CA 94720 USA;

    CNRS LPC2E Orleans France;

    Univ Minnesota Sch Phys &

    Astron Minneapolis MN 55455 USA;

    Univ Calif Berkeley Space Sci Lab Berkeley CA 94720 USA;

    NASA Solar Syst Explorat Div Goddard Space Flight Ctr Greenbelt MD 20771 USA;

    Univ Colorado Lab Atmospher &

    Space Phys Boulder CO 80303 USA;

    Univ Arizona Lunar &

    Planetary Lab Tucson AZ 85721 USA;

    Univ Calif Berkeley Space Sci Lab Berkeley CA 94720 USA;

    Univ Calif Berkeley Space Sci Lab Berkeley CA 94720 USA;

    Univ Calif Berkeley Space Sci Lab Berkeley CA 94720 USA;

    Univ Arizona Lunar &

    Planetary Lab Tucson AZ 85721 USA;

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  • 正文语种 eng
  • 中图分类 天体物理学;天文学;
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