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首页> 美国卫生研究院文献>Nature Communications >Far-field acoustic subwavelength imaging and edge detection based on spatial filtering and wave vector conversion
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Far-field acoustic subwavelength imaging and edge detection based on spatial filtering and wave vector conversion

机译:基于空间滤波和波矢量转换的远场声亚波长成像和边缘检测

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摘要

The resolution of acoustic imaging suffers from diffraction limit due to the loss of evanescent field that carries subwavelength information. Most of the current methods for overcoming the diffraction limit in acoustics still operate in the near-field of the object. Here we demonstrate the design and experimental realization of an acoustic far-field subwavelength imaging system. Our system is based on wave vector filtering and conversion with a transmitter at the near-field and a spatially symmetrical receiver at the far-field. By tuning geometric parameters of the transmitting/receiving pair, different spatial frequency bands can be separated and projected to the far-field. Furthermore, far-field imaging and edge detection of subwavelength objects are experimentally demonstrated. The proposed system brings new possibilities for far-field subwavelength wave manipulation, which can be further applied to medical imaging, nondestructive testing, and acoustic communication.
机译:声成像的分辨率由于携带亚波长信息的渐逝场的损失而受到衍射极限的限制。当前大多数克服声学中衍射极限的方法仍在物体的近场中运行。在这里,我们演示了声远场亚波长成像系统的设计和实验实现。我们的系统基于波矢量滤波和转换,在近场具有发射器,在远场具有空间对称的接收器。通过调整发射/接收对的几何参数,可以分离不同的空间频带并将其投影到远场。此外,实验证明了亚波长物体的远场成像和边缘检测。所提出的系统为远场亚波长波操纵带来了新的可能性,可以进一步应用于医学成像,无损检测和声学通信。

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