High Precision Ammonia Concentration Detection Method Based on Double Sinusoidal Compound Modulation Technology

LI Dachuang; ZHENG Mingjie; SONG Yaodong; SUN Youwen; HU Xiaomin; LIU Biheng

doi:10.3788/gzxb20265503.0312001

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High Precision Ammonia Concentration Detection Method Based on Double Sinusoidal Compound Modulation Technology

Instrumentation\, Measurement and Metrology | 更新时间：2026-04-21

- High Precision Ammonia Concentration Detection Method Based on Double Sinusoidal Compound Modulation Technology
- Acta Photonica Sinica Vol. 55, Issue 3, Pages: 310-318(2026)
- 作者机构：
  
  1.安徽大学电子信息工程学院，合肥 230601
  2.合肥师范学院物理与材料工程学院，合肥 230601
  3.安徽道纪量子科技有限公司，合肥 230013
  4.中国科学院合肥物质科学研究院，合肥 230031
  5.中国科学技术大学量子信息实验室，合肥 230026
- 作者简介：
- 基金信息：
  
  Anhui Provincial Key Research and Development Program Project(2022b13020002);Anhui Provincial Natural Science Research Major Project for Higher Education Institutions(2022AH040289);Anhui Provincial Academic and Technical Leaders and Reserve Candidates Research Activity Funding Project(2019H208);the Aviation Science Foundation(2024Z075078003)
- DOI：10.3788/gzxb20265503.0312001
  CLC： O436
- CSTR：32255.14.gzxb20265503.0312001
- Received：21 October 2025，
  
  Revised：2025-12-05，
  
  Accepted：16 January 2026，
  
  Published：25 March 2026
- 稿件说明：
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李大创，郑明杰，宋耀东，等. 基于双正弦复合调制技术的高精度氨气浓度检测方法［J］.光子学报，2026，55（3）：0312001

LI Dachuang， ZHENG Mingjie， SONG Yaodong， et al. High Precision Ammonia Concentration Detection Method Based on Double Sinusoidal Compound Modulation Technology［J］. Acta Photonica Sinica， 2026， 55（3）：0312001
李大创，郑明杰，宋耀东，等. 基于双正弦复合调制技术的高精度氨气浓度检测方法［J］.光子学报，2026，55（3）：0312001 DOI： 10.3788/gzxb20265503.0312001. CSTR： 32255.14.gzxb20265503.0312001.

LI Dachuang， ZHENG Mingjie， SONG Yaodong， et al. High Precision Ammonia Concentration Detection Method Based on Double Sinusoidal Compound Modulation Technology［J］. Acta Photonica Sinica， 2026， 55（3）：0312001 DOI： 10.3788/gzxb20265503.0312001. CSTR： 32255.14.gzxb20265503.0312001.

摘要

针对传统可调谐二极管激光吸收光谱技术中锯齿波扫描导致的基线拟合误差与噪声敏感性问题，提出采用双正弦复合调制的二次谐波检测方法。该方法融合低频正弦扫描与高频正弦调制，规避了基线拟合误差，同时提升系统抗噪能力，实现痕量氨气（NH₃）的高精度检测。实验表明，双正弦复合调制方式相较于传统低频锯齿扫描叠加高频正弦调制，可以优化系统的信噪比，浓度与二次谐波幅值的线性拟合度提升至0.997 8，检测灵敏度提升至

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。实验验证了双正弦复合调制在痕量气体浓度检测中的可行性与稳定性，为高鲁棒性、高精度及低成本的NH₃工业排放实时监测提供了新思路与技术路径。

Abstract

Ammonia （NH₃） is a fundamental chemical agent extensively utilized in industrial synthesis， agricultural fertilizer production， and large-scale refrigeration systems. However， its leakage poses severe threats to both human physiological health and the atmospheric environment， necessitating the development of high-precision， real-time concentration monitoring techniques. Currently， Tunable Diode Laser Absorption Spectroscopy （TDLAS） combined with Wavelength Modulation Spectroscopy （WMS） is the preferred method for trace gas detection due to its high selectivity and sensitivity. Nevertheless， traditional TDLAS-WMS systems typically employ a low-frequency sawtooth wave for wavelength scanning. This conventional approach faces two critical technical bottlenecks： first， the inherent non-linearity and discontinuous nature of the sawtooth waveform lead to spectral energy dispersion and significant baseline fitting inaccuracies； second， the sawtooth scanning often overlaps with low-frequency environmental noise and mechanical vibrations， which expands the noise integration bandwidth of the lock-in amplifier and consequently limits the Signal-to-Noise Ratio （SNR） in complex industrial scenarios.

To overcome these limitations， this paper proposes an optimized detection method based on dual-sinusoidal compound modulation for second-harmonic signal extraction. The core innovation lies in the simultaneous application of a low-frequency sinusoidal scanning signal （

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） and a high-frequency sinusoidal modulation signal （

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4.38727283

） to achieve precise control of the laser frequency. Unlike the abrupt transitions of a sawtooth wave， the smooth and continuous nature of the dual-sinusoidal waveform effectively eliminates time-d

omain non-linearities， thereby suppressing baseline drifts at the source. Theoretically， this compound modulation concentrates the signal energy more efficiently near the specific harmonic sidebands （

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4.61818218

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）， which significantly reduces the bandwidth requirements for the detection system and enhances its immunity to

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noise. By utilizing narrow-band lock-in amplification to extract the normalized second-harmonic （2

） signal， the proposed method ensures a more robust and stable representation of the gas absorption line shape， providing a theoretical foundation for higher detection accuracy and lower cost.

The experimental validation was conducted using a 1 512 nm Distributed Feedback （DFB） laser and a 100 cm quartz gas cell under controlled laboratory conditions. A comprehensive platform based on a high-speed data

acquisition card （NI-USB6363） and LabVIEW was established to compare the performance of the dual-sinusoidal method against the traditional sawtooth-plus-sine modulation. Precision calibration was performed using a combination of spatial cavity and fiber etalons to optimize the modulation depth. The experimental results demonstrate a substantial performance enhancement： the linear fitting degree （

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） between NH₃ concentration and the second-harmonic amplitude improved from 0.991 9 to 0.997 8. Quantitatively， the detection sensitivity was enhanced from 0.089 ppm to 0.053 ppm， representing a significant improvement of approximately 40.5%. Furthermore， Allan variance analysis confirms that the system achieves its optimum detection limit within a shorter integration time of 81.5 seconds， exhibiting superior long-term stability and a more concentrated Gaussian distribution of measurement data compared to the traditional scanning mode. These results quantitatively confirm that the dual-sine approach ensures higher repeatability， lower detection limits， and faster convergence to optimal precision.

In conclusion， this research successfully demonstrates that dual-sinusoidal compound modulation is a highly feasible and stable approach for high-precision trace gas detection. By circumventing the intrinsic flaws of sawtooth scanning-specifically baseline fitting errors and high sensitivity to low-frequency noise—this method provides a new technical pathway for the robust， real-time monitoring of NH₃ industrial emissions. The findings verify that the optimized system can maintain high accuracy and stability even in environments with significant physical disturbances. Future research will focus on further refining the modulation parameters and integrating advanced digital signal processing algorithms， such as adaptive filtering or artificial neural networks， to address multi-component gas interference in even more complex scenarios. Additionally， the development of integrated， FPGA-based hardware platforms and the incorporation of multipass cells will be explored to further enhance the detection limits and promote the widespread application of this technology in portable environmental monitoring and industrial safety systems.

关键词

Keywords

references

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