A Tale of Two Rapidly-Intensifying Supertyphoons: Hagibis (2019) and Haiyan (2013)

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  • 1 Dept. of Atmospheric Sciences, National Taiwan University, Taipei, Taiwan
  • | 2 NOAA/AOML Hurricane Research Division, USA
  • | 3 Cooperative Institute for Meteorological Satellite Studies, University of Wisconsin, USA
  • | 4 Dept. Of Earth System Science, UC Irvine, USA
  • | 5 Cooperative Institute for Marine and Atmospheric Studies, University of Miami, USA
  • | 6 Department of Geological and Atmospheric Sciences, Iowa State University, USA
  • | 7 Climate and Ecosystem Sciences Division, Lawrence Berkeley National Laboratory, USA
  • | 8 Inst. of Hydrological and Ocean Sciences, National Central University, Taiwan
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Capsules

The explosive intensification of STY Hagibis (2019) and subsequent intensification hindrance was due to the complex interplay across large-scale environmental conditions, vortex-scale properties, and convective-scale features.

Corresponding to: Dr. I-I Lin (iilin@as.ntu.edu.tw) or Dr. Robert Rogers (robert.rogers@noaa.gov)

Capsules

The explosive intensification of STY Hagibis (2019) and subsequent intensification hindrance was due to the complex interplay across large-scale environmental conditions, vortex-scale properties, and convective-scale features.

Corresponding to: Dr. I-I Lin (iilin@as.ntu.edu.tw) or Dr. Robert Rogers (robert.rogers@noaa.gov)
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