What question did this study set out to answer?

The research aims to understand and extract the forward scattering of a sphere in a vortex beam to enhance underwater detection.

April 5, 2026Open Access

Extraction of the direct scattering of a sphere in a vortex beam: Theory and experiment

Key Points

The research aims to understand and extract the forward scattering of a sphere in a vortex beam to enhance underwater detection.
Examined forward acoustic scattering using a vortex beam
Subtracted stable incident contributions to isolate scattering
Implemented a cross correlation method to analyze spatial phase
Conducted numerical simulations and experimental measurements for validation
Observed good agreement between experimental measurements and numerical simulations
Identified a linear relationship between phase singularity shift and sphere offset from beam axis
Proposed phase information as a new degree of freedom for underwater target detection

Abstract

The suppression of direct forward scattering is challenging for object detection in the underwater environment under the incidence of quasi-planar waves. In this work, we study the lateral spatial phase of forward acoustic scattering in a vortex beam from a sphere. By subtracting a stable incident contribution, the forward scattering is extracted from the total field with good agreement between our experimental measurements and numerical simulations. A cross correlation method of the spatial phase is proposed, and results show a linear dependence of the phase singularity shift versus the sphere's offset to the beam axis, which may be potential for the underwater target detection and positioning by using the spatial phase information as the degree of freedom. © 2026 Acoustical Society of America.

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Chen et al. (Wed,) studied this question.

synapsesocial.com/papers/69d1fc70a79560c99a0a2002 https://doi.org/https://doi.org/10.1121/10.0043233

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