Neill Justin L, Harris Brent J, Steber Amanda L, Douglass Kevin O, Plusquellic David F, Pate Brooks H
Opt Express. 2013 Aug 26;21(17):19743-9. doi: 10.1364/OE.21.019743.
Chirped-pulse Fourier transform spectroscopy has recently been extended to millimeter wave spectroscopy as a technique for the characterization of room-temperature gas samples. Here we present a variation of this technique that significantly reduces the technical requirements on high-speed digital electronics and the data throughput, with no reduction in the broadband spectral coverage and no increase in the time required to reach a given sensitivity level. This method takes advantage of the frequency agility of arbitrary waveform generators by utilizing a series of low-bandwidth chirped excitation pulses paired in time with a series of offset single frequency local oscillators, which are used to detect the molecular free induction decay signals in a heterodyne receiver. A demonstration of this technique is presented in which a 67 GHz bandwidth spectrum of methanol (spanning from 792 to 859 GHz) is acquired in 58 μs.
啁啾脉冲傅里叶变换光谱技术最近已扩展到毫米波光谱,作为一种用于表征室温气体样品的技术。在此,我们展示了该技术的一种变体,它显著降低了对高速数字电子设备和数据吞吐量的技术要求,同时不减少宽带光谱覆盖范围,也不增加达到给定灵敏度水平所需的时间。该方法利用任意波形发生器的频率捷变特性,通过使用一系列低带宽啁啾激励脉冲,并在时间上与一系列偏移的单频本地振荡器配对,这些本地振荡器用于在外差接收器中检测分子自由感应衰减信号。本文展示了该技术的一个实例,即在58微秒内获取了甲醇的67吉赫兹带宽光谱(范围从792至859吉赫兹)。