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超高灵敏度太赫兹超导探测器
引用本文:史生才,李婧,张文,缪巍. 超高灵敏度太赫兹超导探测器[J]. 物理学报, 2015, 64(22): 228501-228501. DOI: 10.7498/aps.64.228501
作者姓名:史生才  李婧  张文  缪巍
作者单位:中国科学院紫金山天文台, 毫米波和亚毫米波技术实验室, 南京 210008;中国科学院射电天文重点实验室, 南京 210008
基金项目:国家重大科研仪器研制项目(批准号: 11127903)、国家自然科学基金重大项目(批准号: 11190012)、中国科学院战略性先导科技专项(批准号: XDB04010300)和国家自然科学基金优秀青年科学基金(批准号: 11422326, 11222329)资助的课题.
摘    要:太赫兹(THz)波段一般定义为0.1–10 THz的频率区间, 对应波长范围3 mm–30 μm, 覆盖短毫米波至亚毫米波段(远红外). 尽管人们早已认识到太赫兹波段具有非常重要的科学意义和广泛的应用前景, 但该波段仍然是一个有待全面研究和开发的电磁频率窗口. 因此, 太赫兹波段的天文观测在天体物理及宇宙学研究中具有不可替代的作用, 对于理解宇宙状态和演化具有非常重要的意义. 具有超高灵敏度的太赫兹超导探测器, 已经成为太赫兹波段观测的主要手段. 本文主要阐述了太赫兹超导探测器的基本类型和工作原理, 以及中国科学院紫金山天文台在该领域的主要研究成果和进展.

关 键 词:太赫兹  超导  灵敏度  探测器
收稿时间:2015-04-21

Terahertz high-sensitivity superconducting detectors
Shi Sheng-Cai,Li Jing,Zhang Wen,Miao Wei. Terahertz high-sensitivity superconducting detectors[J]. Acta Physica Sinica, 2015, 64(22): 228501-228501. DOI: 10.7498/aps.64.228501
Authors:Shi Sheng-Cai  Li Jing  Zhang Wen  Miao Wei
Affiliation:Millimeter and Sub-Millimeter Wave Laboratory, Purple Monntain Observatory, Chinese Academy of Sciences, Nanjing 210008, China;Key Laboratory of Radio Astronomy, Chinese Academy of Sciences, Nanjing 210008, China
Abstract:The terahertz regime, as a last radio window, remains to be fully explored, and astronomical and atmospheric observations in this regime are scientifically important. Like other frequency regimes, developing high-sensitivity detectors (coherent and incoherent) is of particular significance for both ground-based and space-borne facilities. As the coherent detector of choice below 1.4 THz, superconductor-insulator-superconductor (SIS) heterodyne mixers have achieved as high a sensitivity as five times the quantum limit around 1.4 THz. It is, however, still a challenge to developing SIS mixers at frequencies beyond 1.4 THz with considerable transmission loss in superconducting circuits due to the Cooper-pair breaking by energetic photons and increased many difficulties in designing and fabricating.So far, superconducting hot electron bolometer (HEB) mixers have been the most sensitive heterodyne detectors at frequencies above 1.5 THz, and successfully used to detect molecular spectral lines up to 2.5 THz from ground-based and space telescopes. Although spiral-antenna coupled NbN HEB mixers show a good sensitivity in the whole THz frequency range, the directly measured spectral response with Fourier transform spectrometer falls quickly as frequency increases, especially above 3 THz.The terahertz band is also of particular importance to observe astronomical objects such as cosmic microwave background, early distant objects, cold objects and dusty objects. Aiming at such objects, we develop a terahertz imaging array system by combining advanced superconducting detectors such as transition edge sensor (TES) and microwave kinetic inductance detectors (MKIDs), thus the system has a frequency band centred at 350 μm, an operational temperature of 0.3 K, and a sensitivity reaching background limit performance for ground-based applications. In addition, it is expected to have some breakthroughs in ultra-sensitive superconducting TES and MKID, low noise multi-channel readout and multiplexing, efficient terahertz-wave coupling technology, and large-scale array system integration. The developed terahertz imaging array system will serve as the next-generation instrument of Dome A 5 m terahertz telescope, conducting a 350 μm-band legacy survey for studying the planets, stars, galaxies and cosmology. Besides the application in astronomy, the developed terahertz imaging array system can also be applied to some areas requiring rapid detection such as security, deep space exploration, and biomedical imaging.In this paper, we mainly introduce the superconducting detectors developed at Purple Mountain Observatory and those for international collaborative projects.
Keywords:terahertz  superconductor  sensitivity  detector
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