\begin{document}${M_v}$\end{document} and the length-scale ratio \begin{document}$\lambda /R$\end{document}. Based on a global analysis of scale effects of these two dimensionless quantities on the scattering cross-section, the whole scattering domain defined on the \begin{document}${M_v} - \lambda /R$\end{document} plane is divided into three subdomains. As the vortex strength \begin{document}${M_v}$\end{document} increases and the length-scale ratio \begin{document}$\lambda /R$\end{document} decreases, the acoustic scattering from a compact vortex goes through the long-wavelength domain, the resonance domain, and the geometrical acoustics domain in turn. The associated scattered fields with the increasing of intensity show more irregularities. The scattering in the long-wavelength domain possesses four primary beams described by half-sine functions, which scales as \begin{document}${M_v}{\left( {\lambda /R} \right)^{ - 2}}$\end{document}. In particular, the directivity of the scattered field with a very low Mach number and a very long wavelength behaves as \begin{document}${M_v}{\left( {\lambda /R} \right)^{ - 2}}\left| {\sin \left( {\theta /2} \right)} \right|$\end{document}. In the resonance domain, the beams in the opposite direction to the incident waves decay rapidly. The rest of two beams follow the \begin{document}${M_v}$\end{document} scaling. The scattered fields are concentrated around the direction of the incident wave in the geometrical acoustics domain, where the primary beams are surrounded by several small sub-beams. The physical mechanism of the acoustic scattering caused by a vortex involves two different mechanisms, namely nonlinear scattering effect and linear long-range refraction effect."> - 必威体育下载

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    Ma Rui-Xuan, Wang Yi-Min, Zhang Shu-Hai, Wu Cong-Hai, Wang Xun-Nian
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    • Abstract views:3955
    • PDF Downloads:73
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    Publishing process
    • Received Date:25 December 2020
    • Accepted Date:05 March 2021
    • Available Online:14 May 2021
    • Published Online:20 May 2021

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