主要回顾了近几年石英增强光声传感技术的最新研究进展, 展望了未来几年该技术的发展趋势。从石英增强光声传感技术的基本原理开始, 介绍了传统的石英增强光声传感器系统的搭建, 围绕如何降低系统噪声和进一步提高探测灵敏度展开论述。阐述了定制音叉式石英晶振的建模与设计, 详细讨论了如何使用定制的音叉探索新型光谱测声器配置, 使探测灵敏度提高两个数量级, 并介绍了利用这些定制音叉的泛频振动模式实现减小声音共振腔长度的目的和双气体探测功能。最后讨论了该技术的进一步发展方向。

This review focuses on discussing the latest progress in Quartz-enhanced photoacoustic spectroscopy (QEPAS) based trace gas sensing and the trend in the next few years. Fundamentals of QEPAS are described in the beginning and the different QEPAS configurations employing a standard 32.7 kHz quartz tuning fork (QTF) are introduced. Variant methods aiming to improve detection sensitivity and suppress sensor noise level are reported. Moreover, a review regarding developments of customized QTFs for trace gas sensing is present. Novel spectrophone configurations, with which the detection sensitivity is improved by two orders of magnitude, are reviewed. The customized QTFs operating in overtone modes significantly decrease the length of acoustic micro-resonators and realize dual gas simultaneous detection. Finally, the development direction of the QEPAS technique is discussed.