The realization of terahertz image reconstruction with high resolution based on the amplitude of the echoed wave by using the phase retrieval algorithm

Xiang Gao; Chao Li; Guang You Fang

doi:10.1088/0256-307X/30/6/068401

The realization of terahertz image reconstruction with high resolution based on the amplitude of the echoed wave by using the phase retrieval algorithm

Xiang Gao, Chao Li^*, Guang You Fang

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

An indirect imager working at terahertz band is presented and implemented, which is suitable for high-resolution planar object detection. The proposed imager employs a simple quasi-optics design to transmit and to receive terahertz waves, and adopts incoherent detection technology to extract the intensity of echoed signal, which results in a relatively low complexity and cost. Moreover, the Fienup Fourier phase-retrieval algorithm is successfully modified and is applied to retrieve the phase of the echoed signal and reconstruct the target image. Imaging experiments on typical planar objects are performed with the imager working at 0.2 THz, and the experimental results demonstrate the good performance of the proposed imager and validate the effectiveness of the reconstruction algorithm.

Original language	English
Article number	068401
Journal	Chinese Physics Letters
Volume	30
Issue number	6
DOIs	https://doi.org/10.1088/0256-307X/30/6/068401
Publication status	Published - Jun 2013
Externally published	Yes

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title = "The realization of terahertz image reconstruction with high resolution based on the amplitude of the echoed wave by using the phase retrieval algorithm",

abstract = "An indirect imager working at terahertz band is presented and implemented, which is suitable for high-resolution planar object detection. The proposed imager employs a simple quasi-optics design to transmit and to receive terahertz waves, and adopts incoherent detection technology to extract the intensity of echoed signal, which results in a relatively low complexity and cost. Moreover, the Fienup Fourier phase-retrieval algorithm is successfully modified and is applied to retrieve the phase of the echoed signal and reconstruct the target image. Imaging experiments on typical planar objects are performed with the imager working at 0.2 THz, and the experimental results demonstrate the good performance of the proposed imager and validate the effectiveness of the reconstruction algorithm.",

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year = "2013",

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AU - Gao, Xiang

AU - Li, Chao

AU - Fang, Guang You

PY - 2013/6

Y1 - 2013/6

N2 - An indirect imager working at terahertz band is presented and implemented, which is suitable for high-resolution planar object detection. The proposed imager employs a simple quasi-optics design to transmit and to receive terahertz waves, and adopts incoherent detection technology to extract the intensity of echoed signal, which results in a relatively low complexity and cost. Moreover, the Fienup Fourier phase-retrieval algorithm is successfully modified and is applied to retrieve the phase of the echoed signal and reconstruct the target image. Imaging experiments on typical planar objects are performed with the imager working at 0.2 THz, and the experimental results demonstrate the good performance of the proposed imager and validate the effectiveness of the reconstruction algorithm.

AB - An indirect imager working at terahertz band is presented and implemented, which is suitable for high-resolution planar object detection. The proposed imager employs a simple quasi-optics design to transmit and to receive terahertz waves, and adopts incoherent detection technology to extract the intensity of echoed signal, which results in a relatively low complexity and cost. Moreover, the Fienup Fourier phase-retrieval algorithm is successfully modified and is applied to retrieve the phase of the echoed signal and reconstruct the target image. Imaging experiments on typical planar objects are performed with the imager working at 0.2 THz, and the experimental results demonstrate the good performance of the proposed imager and validate the effectiveness of the reconstruction algorithm.

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JO - Chinese Physics Letters

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The realization of terahertz image reconstruction with high resolution based on the amplitude of the echoed wave by using the phase retrieval algorithm

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