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@Article{WangNLBEBVVNGGGW:2017:ElQuHa,
               author = "Wang, Rongsheng S and Nakamura, Rumi and Lu, Quanming M. and 
                         Baumjohann, Wolfgang and Ergun, R. E. and Burch, J. L. and 
                         Volwerk, Martin and Varsani, Ali and Nakamura, Takuma and Gonzalez 
                         Alarcon, Walter Dem{\'e}trio and Giles, Barbara and Gershman, Dan 
                         and Wang, Shui",
          affiliation = "{University of Science and Technology of China} and {Austrian 
                         Academy of Sciences} and {University of Science and Technology of 
                         China} and {Austrian Academy of Sciences} and {University of 
                         Colorado Boulder} and {Southwest Research Institute} and {Austrian 
                         Academy of Sciences} and {Austrian Academy of Sciences} and 
                         {Austrian Academy of Sciences} and {Instituto Nacional de 
                         Pesquisas Espaciais (INPE)} and NASA, Goddard Space Flight Center 
                         and NASA, Goddard Space Flight Center and {University of Science 
                         and Technology of China}",
                title = "Electron-scale quadrants of the hall magnetic field observed by 
                         the magnetospheric multiscale spacecraft during asymmetric 
                         reconnection",
              journal = "Physical Review Letters",
                 year = "2017",
               volume = "118",
               number = "17",
                pages = "175101",
                month = "Apr.",
             abstract = "An in situ measurement at the magnetopause shows that the 
                         quadrupole pattern of the Hall magnetic field, which is commonly 
                         observed in a symmetric reconnection, is still evident in an 
                         asymmetric component reconnection, but the two quadrants adjacent 
                         to the magnetosphere are strongly compressed into the electron 
                         scale and the widths of the remaining two quadrants are still ion 
                         scale. The bipolar Hall electric field pattern generally created 
                         in a symmetric reconnection is replaced by a unipolar electric 
                         field within the electron-scale quadrants. Furthermore, it is 
                         concluded that the spacecraft directly passed through the inner 
                         electron diffusion region based on the violation of the electron 
                         frozen-in condition, the energy dissipation, and the slippage 
                         between the electron flow and the magnetic field. Within the inner 
                         electron diffusion region, magnetic energy was released and 
                         accumulated simultaneously, and it was accumulated in the 
                         perpendicular directions while dissipated in the parallel 
                         direction. The localized thinning of the current sheet accounts 
                         for the energy accumulation in a reconnection.",
                  doi = "10.1103/PhysRevLett.118.175101",
                  url = "http://dx.doi.org/10.1103/PhysRevLett.118.175101",
                 issn = "0031-9007",
             language = "en",
           targetfile = "wang_electron.pdf",
        urlaccessdate = "01 dez. 2020"
}


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