Stephen D. Winn scite author profile

Stephen D. Winn

4Publications

24Citation Statements Received

159Citation Statements Given

How they've been cited

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149

Affiliations

Imperial College London, Okinawa Institute of Science and Technology Graduate University, CEA Marcoule

Publications

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Meteotsunamis in Japan associated with the Tonga Eruption in January 2022

Kataoka¹,

Winn²,

Touber³

2022

Preprint

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Large-amplitude meteotsunamis were observed in many areas in Japan, following the arrival of barometric Lamb waves emitted by an underwater volcanic eruption of Hunga Tonga-Hunga Ha‘apai in January 2022. We modeled the power spectra of the tidal level data obtained from 12 tide stations of the Geospatial Information Authority of Japan, based on a single transfer function which converts the barometric pressure pulse spectra into the meteotsunami spectra. The pressure pulse spectra are obtained from the ensemble average of ~1500 Soratena weather sensors of Weathernews Inc. distributed over Japan. The observed meteotsunami spectra can be characterized by the enhanced seiche eigenmodes at each station excited by the mesoscale pressure pulse, which contributes for accumulating the necessary knowledge to understand the potential dangers in various different areas over Japan.

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Two-way coupled long-wave isentropic ocean-atmosphere dynamics

Winn

Sarmiento²,

Alferez

et al. 2023

J. Fluid Mech.

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The events following the 15 January 2022 explosions of the Hunga Tonga-Hunga Ha'apai volcano highlighted the need for a better understanding of ocean-atmosphere interactions when large amounts of energy are locally injected into one (or both). Starting from the compressible Euler equations, a two-way coupled (TWC) system is derived governing the long-wave behaviour of the ocean and atmosphere under isentropic constraint. Bathymetry and topography are accounted for along with three-dimensional atmospheric non-uniformities through their depth average over a spherical shell. A linear analysis, yielding two pairs of gravito-acoustic waves, offers explanations for phenomena observed during the Tonga event. A continuous transcritical regime (in terms of water depth) is identified as the source of large wave generation in deep water bodies, removing the singularity-driven Proudman-type resonance observed in one-way coupled models. The refractive properties, governing the interaction of the atmospheric wave with step changes in water depth, are derived to comment on mode-to-mode energy transfer. Two-dimensional global simulations modelling the propagation of the atmospheric wave (under realistic conditions on the day) and its worldwide effect on oceans are presented. Local maxima of water-height disturbance in the farfield from the volcano, linked to the atmospheric wave deformation (in agreement with observations), are identified, emphasising the importance of the TWC model for any daylong predictions. The proposed framework can be extended to include additional layers and physics, e.g. ocean and atmosphere stratification. With the aim of contributing to warning system improvement, the code necessary to simulate the event with the proposed model is made available.

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Hydrodynamics of pulsed columns: The effect of new parameters affecting the pressure drop

Charton

Thebault

Winn

et al. 2017

Chemical Engineering Research and Design

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Meteotsunamis in Japan Associated with the Tonga Eruption in January 2022

Kataoka

Winn

Touber

2022

SOLA

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Large-amplitude meteotsunamis were observed in many areas in Japan, following the arrival of barometric Lamb waves emitted by an underwater volcanic eruption of Hunga Tonga-Hunga Ha'apai in January 2022. We modeled the power spectra of the tidal level data obtained from 12 tide stations of the Geospatial Information Authority of Japan, based on a method of transfer function which converts the barometric pressure pulse spectra into the meteotsunami spectra. The obtained transfer functions are similar at 12 stations. The pressure pulse spectra are obtained from the ensemble average of ~1500 Soratena weather sensors of Weathernews Inc. distributed over Japan. The observed meteotsunami spectra can be characterized by the enhanced seiche eigenmodes at each station excited by the mesoscale pressure pulse within the amplitude error of 50%, which Kataoka et al., Meteotsunami in Japan associated with Tonga eruption event 2 contributes for accumulating the necessary knowledge to understand the potential dangers in various different areas over Japan.

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Stephen D. Winn

Meteotsunamis in Japan associated with the Tonga Eruption in January 2022

Two-way coupled long-wave isentropic ocean-atmosphere dynamics

Hydrodynamics of pulsed columns: The effect of new parameters affecting the pressure drop

Meteotsunamis in Japan Associated with the Tonga Eruption in January 2022

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