Small-amplitude trochoidal oscillations in Typhoons Rammasun (2014) and Lekima (2019)

Tropical cyclones (TCs) tend to oscillate around a mean path and the trochoidal oscillation has been documented based on radar, satellite and aircraft observational data and in numerical simulations. Currently, no consensus has been reached on the mechanisms responsible for the trochoidal oscillatio...

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Published inTAO : Terrestrial, atmospheric, and oceanic sciences Vol. 32; no. 6III; pp. 1153 - 1162
Main Authors Feng, Yecheng, Wu, Liguang
Format Journal Article
LanguageEnglish
Published Taiwan 中華民國地球科學學會 01.12.2021
Chinese Geoscience Union (Taiwan)
Subjects
Aircraft
Amplitude
Amplitudes
Cyclones
Hurricanes
Laboratories
Mathematical models
Numerical analysis
Numerical simulations
Oscillations
Radar
Radar data
Satellite observation
Simulation
Tracks (paths)
Tropical cyclones
Typhoons
Vortices
Trochoidal oscillation
Tropical cyclone
Track
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Summary:Tropical cyclones (TCs) tend to oscillate around a mean path and the trochoidal oscillation has been documented based on radar, satellite and aircraft observational data and in numerical simulations. Currently, no consensus has been reached on the mechanisms responsible for the trochoidal oscillation in TC motion although a few theories have been proposed since 1950. In this study, the small- amplitude track oscillations of Super Typhoons Rammasun (2014) and Lekima (2019) are examined based on the 6-minute radar refelctivity and the detected oscillation in Rammasun is verified through numerical simulation. The trochoidal oscillation in the tracks of Super Typhoons Rammasun and Lekima can be retrieved with the 6-minute radar data. The detected track oscillation always exhibits cyclonic rotations around a mean track, with the amplitude of a few kilometers and the period of a few hours. The numerical simulation of Typhoon Rammasun indicates that the small-amplitude track oscillation can be simulated in terms of the period and amplitude. Based on two different center-detecting methods, it is shown that the simulated track oscillation represents the wobble of the whole inner-core circulation. Since the small-scale oscillations are closely associated with the dynamics of the TC inner-core circulation, this study suggests that the trochoidal oscillation in TC tracks may provide important information for understanding the intensity and structure changes of TCs.
ISSN:1017-0839
2311-7680
DOI:10.3319/TAO.2021.07.26.02