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	Provedor de dados ArchiMer (22) OceanDocs (2) Infoteca-e (1) Autor Berger, Laurent (6) Trenkel, Verena (4) Doray, Mathieu (3) Petitgas, Pierre (3) Chantrel, Josselin (2) Le Bouffant, Naig (2) Lebourges-dhaussy, Anne (2) Masse, Jacques (2) Mazauric, Valerie (2) Reynal, Lionel (2) Scalabrin, Carla (2) ALMEIDA, R. G. de (1) ALVES, F. V. (1) ARGUELHO, A. da S. (1) Allain, Valerie (1) Amaro, Aristóteles P. da S. (1) Annasawmy, Pavanee (1) Antoine, Loic (1) Ardhuin, Fabrice (1) Bax, N (1) Mais... Palavra-chave Acoustics (25) Abundance (3) Acoustique (2) Aggregative behaviour (2) Anchovy (2) Bay of Biscay (2) Behaviour (2) Lesser Antilles (2) Marine technology (2) Oceanography (2) Optics (2) Sensors (2) Sonar (2) Tuna (2) Underwater video (2) Abondance (1) Acoustic imagery (1) Acoustic serveys (1) Acoustical methods (1) Acoustical risks (1) Mais... Tipo do documento Text (22) Documentos (INFOTECA-E) (1) Other (1) Report (1) Ano 2020 (1) 2019 (2) 2018 (1) 2016 (2) 2015 (1) 2014 (1) 2013 (2) 2012 (1) 2011 (1) 2009 (3) 2008 (1) 2007 (2) 2006 (2) 1999 (1) 1997 (1) 1990 (3) Mais... País France (22) Belgium (2) Brazil (1) Idioma Inglês (18) Francês (6) Português (1)		Registro completo Provedor de dados:  ArchiMer País:  France Título:  Noise generation in the solid Earth, oceans and atmosphere, from nonlinear interacting surface gravity waves in finite depth Autores:  Ardhuin, Fabrice Herbers, T. H. C. Data:  2013-02 Ano:  2013 Palavras-chave:  Acoustics Geophysical and geological flows Surface gravity waves Resumo:  Oceanic pressure measurements, even in very deep water, and atmospheric pressure or seismic records, from anywhere on Earth, contain noise with dominant periods between 3 and 10 s, which is believed to be excited by ocean surface gravity waves. Most of this noise is explained by a nonlinear wave-wave interaction mechanism, and takes the form of surface gravity waves, acoustic or seismic waves. Previous theoretical work on seismic noise focused on surface (Rayleigh) waves, and did not consider finite-depth effects on the generating wave kinematics. These finite-depth effects are introduced here, which requires the consideration of the direct wave-induced pressure at the ocean bottom, a contribution previously overlooked in the context of seismic noise. That contribution can lead to a considerable reduction of the seismic noise source, which is particularly relevant for noise periods larger than 10 s. The theory is applied to acoustic waves in the atmosphere, extending previous theories that were limited to vertical propagation only. Finally, the noise generation theory is also extended beyond the domain of Rayleigh waves, giving the first quantitative expression for sources of seismic body waves. In the limit of slow phase speeds in the ocean wave forcing, the known and well-verified gravity wave result is obtained, which was previously derived for an incompressible ocean. The noise source of acoustic, acoustic-gravity and seismic modes are given by a mode-specific amplification of the same wave-induced pressure field near zero wavenumber. Tipo:  Text Idioma:  Inglês Identificador:  http://archimer.ifremer.fr/doc/00125/23580/21479.pdf DOI:10.1017/jfm.2012.548 Editor:  Cambridge Univ Press Relação:  http://archimer.ifremer.fr/doc/00125/23580/ Formato:  application/pdf Fonte:  Journal Of Fluid Mechanics (0022-1120) (Cambridge Univ Press), 2013-02 , Vol. 716 , P. 316-348 Direitos:  Cambridge University Press 2013 Fechar

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