Frequency-controlled sources of far-infrared radiation for spaceborne applications

Proceedings of the 2000 IEEE/EIA International Frequency Control Symposium and Exhibition (Cat. No.00CH37052) Pub Date : 2000-07-26 DOI:10.1109/FREQ.2000.887419

M.C. Gaidis, K. Lee, L. Samoska, R. Wyss

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引用次数: 1

Abstract

Among the difficulties in developing far-infrared (FIR) technology, a perennial lack of frequency-controlled sources has kept this spectral region's technology far behind that of the surrounding spectral regions. However, as is the case in other spectral regions, astronomers and atmospheric scientists drive much of the cutting-edge technology development in the FIR. The dramatic attenuation of FIR radiation by water and other constituents of the Earth's atmosphere forces many of the scientists' measurement platforms above the atmosphere, into space. Therefore, there is a strong correlation between the development of new FIR technology and spaceborne instrumentation. In this paper, we address the needs of the FIR space-flight community, providing an introduction to the common heterodyne receiver configurations and the state of technology for various front-end components. We make frequent reference to the added challenges of producing such receivers for space environments.

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用于星载应用的频率控制远红外辐射源

在发展远红外(FIR)技术的困难中，长期缺乏频率控制源使得该光谱区域的技术远远落后于周围的光谱区域。然而，与其他光谱区域的情况一样，天文学家和大气科学家推动了FIR中许多尖端技术的发展。水和地球大气的其他成分对FIR辐射的显著衰减迫使许多科学家的测量平台在大气层之上进入太空。因此，新型FIR技术的发展与星载仪器之间存在着很强的相关性。本文针对FIR航天界的需求，介绍了常用外差接收机的配置和各种前端器件的技术现状。我们经常提到为空间环境生产这种接收器的额外挑战。

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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Proceedings of the 2000 IEEE/EIA International Frequency Control Symposium and Exhibition (Cat. No.00CH37052)

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