2020年5月17日和6月1日山东强冰雹风暴双极化特征分析          下载免费PDF全文

刁秀广 《山东气象》2021,41(1):68-81

利用济南、青岛和烟台S波段双偏振多普勒天气雷达资料和常规观测资料以及天气实况,对2020年5月17日和6月1日两次强对流天气过程的关键环境物理量和风暴低层强冰雹区偏振量、三体散射、强冰雹衰减等偏振特征等进行了分析。结果表明:1)两次强对流天气都具有大的温差和强垂直风切变,中层较干。5月17日山东半岛0～6 km垂直风切变更强,低层湿度更大,湿球0 ℃层高度较低,是产生多个超级单体风暴并出现特大冰雹的关键物理量。2)5月17日城阳风暴低层强冰雹区具有适中的差分反射率（ZDR）和偏小的相关系数CC及偏大的差分相移率（KDP）。ZDR多在0.30～2.60 dB之间,平均为1.50 dB;CC多在0.900～0.965之间,平均为0.931;KDP多在2.0～6.3(°)·km-1之间,平均为4.1 (°)·km-1。少量融化的冰雹粒子和大的雨滴导致适中的ZDR和偏大的KDP。3)6月1日长清风暴低层强冰雹区具有偏小的ZDR和偏小的CC及大的KDP。ZDR多在-0.12～1.50 dB之间,平均为0.68 dB;CC多在0.925～0.970之间,平均为0.950;KDP多在4.0～7.6 (°)·km-1之间,平均为5.8 (°)·km-1。高浓度的液态雨滴和融化的小冰雹粒子导致大的KDP。4)三体散射、旁瓣回波、衰减及波束非均匀填充(nonuniform beam filling,NBF)等特征可作为冰雹识别判据。衰减特征在ZDR产品上表现较为明显,风暴核后侧较长径向上出现负值区,显著衰减可作为特大冰雹的判据。NBF仅在CC产品上有明显特征,风暴核后侧较长径向上CC明显较小。  相似文献   

MERLIN polarimetry of the OH maser emission from R Crateris     

M. Szymczak  R. J. Cohen  A. M. S. Richards 《Monthly notices of the Royal Astronomical Society》1999,304(4):877-882

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Studies of a sample of 6C radio galaxies at a redshift of 1 -- I. Deep multifrequency radio observations     

P. N. Best  S. A. Eales  M. S. Longair  S. Rawlings  H. J. A. Röttgering 《Monthly notices of the Royal Astronomical Society》1999,303(3):616-640

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W. G. Roberge  A. Lazarian 《Monthly notices of the Royal Astronomical Society》1999,305(3):615-630

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Magnetic field structure in the bipolar outflow source G 35.2−0.74N: MERLIN spectral line results     

B. Hutawarakorn  R. J. Cohen 《Monthly notices of the Royal Astronomical Society》1999,303(4):845-854

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A. Lazarian  Michael Efroimsky 《Monthly notices of the Royal Astronomical Society》1999,303(4):673-684

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Polarization of radio cores as a test of unified schemes     

D. J. Saikia 《Monthly notices of the Royal Astronomical Society》1999,302(4):L60-L64

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On accretion flow penetration of magnetospheres     

C. Litwin  R. Rosner  D. Q. Lamb 《Monthly notices of the Royal Astronomical Society》1999,310(2):324-330

We address the problem of plasma penetration of astrophysical magnetospheres, an important issue in a wide variety of contexts, ranging from accretion in cataclysmic variables to flows in protostellar systems. We point out that under well-defined conditions, penetration can occur without any turbulent mixing (driven, for example, by Rayleigh–Taylor or Kelvin–Helmholtz instabilities) caused by charge polarization effects, if the inflowing plasma is bounded in the direction transverse to both the flow velocity and the magnetic field. Depolarization effects limit the penetration depth, which nevertheless can, under specific circumstances, be comparable to the size of the magnetosphere. We discuss the effect of ambient medium on plasma propagation across the stellar magnetic field and determine the criteria for deep magnetosphere penetration. We show that, under conditions appropriate to magnetized white dwarfs in AM Her type cataclysmic variables, charge polarization effects can lead to deep penetration of the magnetosphere.  相似文献   

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Kazunori Yoshizawa  Kiyoshi Yomogida  & Seiji Tsuboi 《Geophysical Journal International》1999,138(1):205-220

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