Toward real-time terahertz imaging

IF 25.2 1区物理与天体物理 Q1 OPTICS

Advances in Optics and Photonics Pub Date : 2018-11-15 DOI:10.1364/AOP.10.000843

H. Guerboukha, K. Nallappan, M. Skorobogatiy

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引用次数: 233

Abstract

Terahertz (THz) science and technology have greatly progressed over the past two decades to a point where the THz region of the electromagnetic spectrum is now a mature research area with many fundamental and practical applications. Furthermore, THz imaging is positioned to play a key role in many industrial applications, as THz technology is steadily shifting from university-grade instrumentation to commercial systems. In this context, the objective of this review is to discuss recent advances in THz imaging with an emphasis on the modalities that could enable real-time high-resolution imaging. To this end, we first discuss several key imaging modalities developed over the years: THz transmission, reflection, and conductivity imaging; THz pulsed imaging; THz computed tomography; and THz near-field imaging. Then, we discuss several enabling technologies for real-time THz imaging within the time-domain spectroscopy paradigm: fast optical delay lines, photoconductive antenna arrays, and electro-optic sampling with cameras. Next, we discuss the advances in THz cameras, particularly THz thermal cameras and THz field-effect transistor cameras. Finally, we overview the most recent techniques that enable fast THz imaging with single-pixel detectors: mechanical beam-steering, compressive sensing, spectral encoding, and fast Fourier optics. We believe that this critical and comprehensive review of enabling hardware, instrumentation, algorithms, and potential applications in real-time high-resolution THz imaging can serve a diverse community of fundamental and applied scientists.

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走向实时太赫兹成像

在过去的二十年里，太赫兹(THz)科学技术取得了巨大的进步，电磁波谱的太赫兹区域现在是一个成熟的研究领域，具有许多基础和实际应用。此外，太赫兹成像将在许多工业应用中发挥关键作用，因为太赫兹技术正稳步从大学级仪器转向商业系统。在此背景下，本综述的目的是讨论太赫兹成像的最新进展，重点是能够实现实时高分辨率成像的模式。为此，我们首先讨论了多年来发展起来的几种关键成像模式:太赫兹透射、反射和电导率成像;太赫兹脉冲成像;太赫兹计算机断层扫描;太赫兹近场成像。然后，我们讨论了时域光谱模式下实时太赫兹成像的几种使能技术:快速光延迟线，光导天线阵列和相机电光采样。接下来，我们讨论了太赫兹相机的进展，特别是太赫兹热像仪和太赫兹场效应晶体管相机。最后，我们概述了使用单像素探测器实现快速太赫兹成像的最新技术:机械波束转向，压缩感知，光谱编码和快速傅立叶光学。我们相信，对实时高分辨率太赫兹成像的硬件、仪器、算法和潜在应用的关键和全面的回顾，可以为基础和应用科学家的多样化社区服务。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Optics and Photonics OPTICS-

CiteScore

56.60

自引率

0.00%

发文量

期刊介绍： Advances in Optics and Photonics (AOP) is an all-electronic journal that publishes comprehensive review articles and multimedia tutorials. It is suitable for students, researchers, faculty, business professionals, and engineers interested in optics and photonics. The content of the journal covers advancements in these fields, ranging from fundamental science to engineering applications. The journal aims to capture the most significant developments in optics and photonics. It achieves this through long review articles and comprehensive tutorials written by prominent and respected authors who are at the forefront of their fields. The journal goes beyond traditional text-based articles by enhancing the content with multimedia elements, such as animation and video. This multimedia approach helps to enhance the understanding and visualization of complex concepts. AOP offers dedicated article preparation and peer-review support to assist authors throughout the publication process. This support ensures that the articles meet the journal's standards and are well-received by readers. Additionally, AOP welcomes comments on published review articles, encouraging further discussions and insights from the scientific community. In summary, Advances in Optics and Photonics is a comprehensive journal that provides authoritative and accessible content on advancements in optics and photonics. With its diverse range of articles, multimedia enhancements, and dedicated support, AOP serves as a valuable resource for professionals and researchers in these fields.