Publications by authors named "Zhile Yuan"
Optomechanical energy enhanced BF-QEPAS for fast and sensitive gas sensing.
Photoacoustics
February 2025
Traditional beat frequency quartz-enhanced photoacoustic spectroscopy (BF-QEPAS) are limited by short energy accumulation times and the necessity of a decay period, leading to weaker signals and longer measurement cycles. Herein, we present a novel optomechanical energy-enhanced (OEE-) BF-QEPAS technique for fast and sensitive gas sensing. Our approach employs periodic pulse-width modulation (PWM) of the laser signal with an optimized duty cycle, maintaining the quartz tuning fork's (QTF) output at a stable steady-state level by applying stimulus signals at each half-period and allowing free vibration in alternate half-periods to minimize energy dissipation.
View Article and Find Full Text PDFCompact step-added T-type PAC for enhanced hydrogen detection: A photoacoustic frequency shift approach.
Spectrochim Acta A Mol Biomol Spectrosc
November 2024
Article Synopsis
- The study presents a new technique called photoacoustic frequency shift (PAFS) for detecting hydrogen, backed by theoretical models and experiments to improve sensitivity while reducing cross-sensitivity with other gases.
- A specially designed miniaturized step-added T-type Photoacoustic Cell (PAC) was optimized for performance, using simulations to assess key factors like quality and acoustic pressure.
- Experimental results showed a strong linear relationship between hydrogen concentration changes and frequency shifts, with rapid response times and high stability, achieving a minimum detection limit of 102.47 ppm.