Using multi‐satellite observations, the cloud dynamic and microphysical characteristics were
revealed during the rapid intensification (RI) of super‐typhoon Nanmadol (2022). As the …

Differences in the inner-core structure of intensifying [IN; intensity increase of at least 20 kt
(24 h)− 1, where 1 kt= 0.51 ms− 1] and steady-state [SS; intensity remaining between±10 kt …

New multi-lead-time versions of three statistical probabilistic tropical cyclone rapid
intensification (RI) prediction models are developed for the Atlantic and eastern North Pacific …

Composite analysis is used to examine environmental and climatology and persistence
characteristics of tropical cyclones (TCs) undergoing different intensity changes in the …

Previous studies have focused mostly on the roles of environmental factors in the rapid
intensification (RI) of tropical cyclones (TCs) because of the lack of high-resolution data in …

Recent (past~ 15 years) advances in our understanding of tropical cyclone (TC) intensity
change processes using aircraft data are summarized here. The focus covers a variety of …

The structure and evolution of Hurricane Earl (2010) during its rapid intensification as
sampled by aircraft is studied here. Rapid intensification occurs in two stages. During the …

The structural evolution of the inner core and near-environment throughout the life cycle of
Hurricane Edouard (2014) is examined using a synthesis of airborne and satellite …

This paper presents observations of deep convection characteristics in the tropics and
subtropics that have been classified into four categories: tropical cyclone, oceanic, land, and …

In this study, the results of a forecast from the operational Hurricane Weather Research and
Forecast (HWRF) system for Hurricane Earl (2010) are verified against observations and …