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Spatially engineered optical–acoustic matching in quartz-enhanced photoacoustic spectroscopy

Ruyue Cui, Wenfei Han, Chenglong Wang, Chunxia Li, Yingzhang Ren, Xinran Li, Jiale Xu, Vincenzo Spagnolo, Weidong Chen, Hongpeng Wu, Lei Dong

2026Photoacoustics6 citationsDOIOpen Access PDF

Abstract

Quartz-enhanced photoacoustic spectroscopy (QEPAS) offers high sensitivity for trace-gas detection, but its performance is often limited by a spatial mismatch between distributed photoacoustic excitation and the intrinsic sensitivity region of the quartz tuning fork (QTF). In many multi-pass QEPAS configurations, extending the optical path length alone does not ensure efficient signal enhancement. Here, we present a spatially engineered optical-acoustic matching strategy for QEPAS. A confocal-like multi-pass cell folds the excitation beam multiple times while spatially confining optical absorption within the intrinsic high-sensitivity region of the QTF. In parallel, non-resonant conical acoustic collectors (CACs) geometrically match and efficiently collect the resulting distributed photoacoustic waves. Experimental validation using water vapor detection demonstrates an approximately 42-fold signal enhancement compared with a conventional single-pass QEPAS configuration under identical conditions. The enhancement is achieved without relying on narrowband acoustic resonance or stringent optical alignment, establishing spatial engineering as a robust and general framework for improving QEPAS performance.

Topics & Concepts

Photoacoustic spectroscopyMaterials sciencePhotoacoustic effectSensitivity (control systems)SIGNAL (programming language)OpticsNarrowbandPhotoacoustic imaging in biomedicineOptical path lengthOptoelectronicsAbsorption (acoustics)Optical pathExcitationPath lengthSpectroscopyAcousticsSignal processingConical surfaceResonance (particle physics)Beam (structure)Path (computing)Stray lightMatching (statistics)Detection theorySpectroscopy and Laser ApplicationsPhotoacoustic and Ultrasonic ImagingCombustion and flame dynamics
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