4.8 Article

Direct evidence that twisted flux tube emergence creates solar active regions

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NATURE COMMUNICATIONS
卷 12, 期 1, 页码 -

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NATURE PORTFOLIO
DOI: 10.1038/s41467-021-26981-7

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资金

  1. US Air Force Office for Scientific Research (AFOSR) [FA8655-20-1-7032]
  2. Italian MIUR-PRIN [2017APKP7T]
  3. Istituto Nazionale di Astrofisica (INAF)
  4. European Union's Horizon 2020 Research and Innovation programme [824135, 729500]

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Twisted flux tubes are important for understanding the emergence of solar active regions, and the magnetic winding method provides a clear signature of their emergence despite field deformation. This technique complements existing measures like magnetic helicity, allowing for direct identification of emerging twisted magnetic flux tubes.
Twisted flux tubes are prominent candidates for the progenitors of solar active regions. Here, the authors show a clear signature of the emergence of pre-twisted magnetic flux tubes using magnetic winding, which detects the emerging magnetic topology despite the deformation experienced by the emerging magnetic field. The magnetic nature of the formation of solar active regions lies at the heart of understanding solar activity and, in particular, solar eruptions. A widespread model, used in many theoretical studies, simulations and the interpretation of observations, is that the basic structure of an active region is created by the emergence of a large tube of pre-twisted magnetic field. Despite plausible reasons and the availability of various proxies suggesting the accuracy of this model, there has not yet been a methodology that can clearly and directly identify the emergence of large pre-twisted magnetic flux tubes. Here, we present a clear signature of the emergence of pre-twisted magnetic flux tubes by investigating a robust topological quantity, called magnetic winding, in solar observations. This quantity detects the emerging magnetic topology despite the significant deformation experienced by the emerging magnetic field. Magnetic winding complements existing measures, such as magnetic helicity, by providing distinct information about field line topology, thus allowing for the direct identification of emerging twisted magnetic flux tubes.

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