SOLITON—LIKE THERMAL SOURCE FORCING AND SINGULAR RESPONSE OF ATMOSPHERE AND OCEANS TO IT

Nonlinear dynamic study is undertaken of the response of atmospheric and oceanic flow fields to local thermal source forcing in the context of a generalized geophysical fluid dynamic barotropic quasi-geostrophic model, discovering a good relation between thermal disturbance and flow field response t...

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Veröffentlicht in:	Applied mathematics and mechanics 2003-06, Vol.24 (6), p.714-719
1. Verfasser:	张韧沙文钰蒋国荣王继光
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Sprache:	eng
Schlagworte:	动力响应大气动力学流体动力学海洋动力学热源作用
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container_title	Applied mathematics and mechanics
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creator	张韧沙文钰蒋国荣王继光
description	Nonlinear dynamic study is undertaken of the response of atmospheric and oceanic flow fields to local thermal source forcing in the context of a generalized geophysical fluid dynamic barotropic quasi-geostrophic model, discovering a good relation between thermal disturbance and flow field response to it, both having similar modes, and that the soliton-like responding field is a great deal larger in extent than the analogous-form forcing field, which implies that a " narrow" thermal disturbance can excite a " wide" response field, in some cases the particular structure of a thermal source may give rise to singular response of atmospheric and oceanic flow fields, thus displaying their abnormalities (for example the blocking ,situation in the atmosphere ), the atmospheric and oceanic stream fields at mid-high latitudes respond to thermal forcing in a much more pronounced manner compared to those at low latitudes. The said research results that is in agreement with studies from mid-low latitude atmospheric experiments and observations and can be used to partially interpret the circulation singularity due to heat source anomaly on a local basis in the context of earch fluid flows.
doi_str_mv	10.1007/BF02437873
format	Article
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subjects	动力响应大气动力学流体动力学海洋动力学热源作用
title	SOLITON—LIKE THERMAL SOURCE FORCING AND SINGULAR RESPONSE OF ATMOSPHERE AND OCEANS TO IT
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