太赫兹辐射
探测器
微波食品加热
多普勒效应
亮度
谱线
光谱分辨率
物理
噪音(视频)
光学
分析化学(期刊)
化学
图像(数学)
天文
量子力学
色谱法
计算机科学
人工智能
作者
Ivan R. Medvedev,Markus Behnke,Frank C. De Lucia
摘要
A submillimeter∕terahertz point detector for gas monitoring and quantification is described. It is based upon the fast (∼15GHz∕s) sweeping of high spectral purity (<1∕107), high brightness (∼1014K) microwave sources and a scanning electronic reference for frequency measurement. This approach can quantify the complex rotational spectrum of gases at a rate of ∼105 spectral resolution elements∕second at high signal to noise. This resolution and the uniqueness of Doppler limited rotational spectra provide “absolute” specificity and “zero” false alarm rates even in complex mixtures. Moreover, the small size, low power consumption, and the potential of very low cost make this approach attractive for a number of important applications.
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