Modelling sound particle motion in shallow watera).

Oppeneer, Victor O; de Jong, Christ A F; Binnerts, Bas; Wood, Michael A; Ainslie, Michael A

Oppeneer, Victor O; de Jong, Christ A F; Binnerts, Bas; Wood, Michael A; Ainslie, Michael A.

Afiliação

Oppeneer VO; TNO Acoustics and Sonar, Oude Waalsdorperweg 63, 2597 AK Den Haag, the Netherlands.
de Jong CAF; TNO Acoustics and Sonar, Oude Waalsdorperweg 63, 2597 AK Den Haag, the Netherlands.
Binnerts B; TNO Acoustics and Sonar, Oude Waalsdorperweg 63, 2597 AK Den Haag, the Netherlands.
Wood MA; JASCO Applied Sciences (UK) Ltd, The Flint Barn, St Clair's Farm, Wickham Road, Droxford, Hampshire, SO32 3PW, United Kingdom.
Ainslie MA; JASCO Applied Sciences (Deutschland) GmbH, Lise-Meitner-Straße 9, 24223 Schwentinental, Germany.

J Acoust Soc Am ; 154(6): 4004-4015, 2023 Dec 01.

Article em En | MEDLINE | ID: mdl-38153268

ABSTRACT

ABSTRACT

Fish species and aquatic invertebrates are sensitive to underwater sound particle motion. Studies on the impact of sound on marine life would benefit from sound particle motion models. Benchmark cases and solutions are proposed for the selection and verification of appropriate models. These include a range-independent environment, with and without shear in the sediment, and a range-dependent environment, without sediment shear. Analysis of the acoustic impedance illustrates that sound particle velocity can be directly estimated from the sound pressure field in shallow water scenarios, except at distances within one wavelength of the source, or a few water depths at frequencies where the wavelength exceeds the water depth.

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: J Acoust Soc Am Ano de publicação: 2023 Tipo de documento: Article País de afiliação: Holanda

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