SQUARE-WAVE FREQUENCY MODULATION IN MICROWAVE SPECTROSCOPY

Q4 Physics and Astronomy

Radio Physics and Radio Astronomy Pub Date : 2022-01-01 DOI:10.15407/rpra27.04.299

E. Alekseev, V. Ilyushin, R. Motiyenko

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引用次数: 1

Abstract

Subject and Purpose. The frequency modulation (FM)combined with lock-in detection, the technique which is used in microwave spectroscopy for enhancing the sensitivity of measurements, as well as the effects due to standing wavesinthe measuring absorption cell can lead to distortions in the spectral line shapes observed. To ensure the highest possible accuracy derivable from the experimental data, these distortions needto be taken into account. A way of improving theaccuracy is to approximate to the experimental line contour with a theoretical line shape that would account for the observable distortion effects.The relevant literature sources suggest examples of theoretical expressions for the line shape in the case of a sinusoidal frequency modulation. This work has been aimed at derivingsimilar expressions for the case of a square-wave frequency modulation that shall allow increasing the accuracy of measurements. Methods and Methodology.The square-wave-FM signalsare obtained with the aid of a direct digital frequency synthesizer thatcan provide switching between two frequencies known to a high accuracy. This technical solution permits generating FM signals with precisely specified parameters. Results. A closed-form expression has been suggested, based on numerically evaluated line shape derivatives, whichallows taking into considerationthe basic types of distortions encountered in the spectral line records. The cases that have been considered concern a variety of experimental conditions, including sub-Doppler measurements with Lamb-dip observations. Conclusions. The approach that has been proposed allows one to properly take into account the distortions of spectral line shapes resulting from the use of a square-wave-FM signal, as well as those due to standing wave effects in the spectrometer cell. As has been found, application of this approach to experimental spectra with a variety of modulation parameters permits reducing the errors of frequency determination to ±0.001MHz, provided the signal-to-noise ratios are reasonably high.

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微波光谱学中的方波频率调制

主题和目的。频率调制(FM)与锁定检测相结合，这是微波光谱中用于提高测量灵敏度的技术，以及由于测量吸收单元中的驻波的影响，可能导致观察到的光谱线形状失真。为了确保从实验数据中得到尽可能高的精度，需要考虑到这些失真。提高精度的一种方法是用理论线形近似于实验线形，这将解释可观察到的畸变效应。相关文献来源提出了在正弦调频情况下的线形理论表达式的例子。这项工作的目的是为方波频率调制的情况导出类似的表达式，以提高测量的精度。方法和方法论。方波调频信号是在直接数字频率合成器的帮助下获得的，该合成器可以在两个已知频率之间提供高精度的切换。该技术方案允许产生具有精确指定参数的调频信号。结果。基于数值计算的线形导数，提出了一种封闭形式的表达式，可以考虑到谱线记录中遇到的基本类型的畸变。所考虑的情况涉及各种实验条件，包括用兰姆倾角观测进行亚多普勒测量。结论。所提出的方法允许人们适当地考虑由于使用方波调频信号而引起的光谱线形状的畸变，以及由于光谱仪单元中的驻波效应而引起的畸变。研究发现，在信噪比相当高的情况下，将该方法应用于具有多种调制参数的实验光谱，可以将频率测定误差降低到±0.001MHz。

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