2.0μm附近模拟呼吸气体中~（13）CO_2/~（12）CO_2同位素丰度的高精度实时在线测量

HFCAS OpenIR

	2.0μm附近模拟呼吸气体中~（13）CO_2/~（12）CO_2同位素丰度的高精度实时在线测量
其他题名	Highly precise and real-time measurements of 13CO2/12CO2 isotopic ratio in breath using a 2μm diode laser
	孙明国 1; 马宏亮 2; 刘强1 ; 曹振松1 ; 王贵师 1; 刘锟1 ; 黄印博1 ; 高晓明1 ; 饶瑞中1
	2018
发表期刊	物理学报
ISSN	1000-3290
摘要	采用可调谐二极管激光吸收光谱技术,结合一新型多通池搭建了一套模拟呼吸气体中CO2同位素丰度的测量装置.气体的压强、温度和流速被很好地控制且均能保持长期的稳定性;采用三次多项式拟合光谱基线,对光谱进行归一化,很好地消除了功率变化对测量结果的影响;利用移窗-回归技术消除频率漂移对同位素丰度测量的影响.实验结果表明：移窗-回归法的引入不仅延长了系统的稳定时间,还提高了系统的测量精度;小波去噪的应用获得了比多光谱平均法高2倍的信噪比;系统的稳定时间为100 s;Kalman滤波后系统测量精度为0.067‰.
其他摘要	Real-time breath gas analysis with high accuracy, precision and time resolution, as a promising, non-invasive, fast and reliable tool, is important in medical diagnostics. Especially stable isotopologues of carbon dioxide is applied to multiple research areas including the diagnosis of gastrointestinal diseases. Helicobacter pylori （H. pylori） is one of the most frequent bacterial infectious diseases in human beings and is now recognized as one of the key risk factors for chronic gastritis, peptic ulcers, stomach cancer and lymphoma. In contrast to traditional invasive tests, the most reliable non-invasive method in the diagnosis of the H. pylori infection is considered to be 13C-urea breath test which is implemented by measuring the 13CO2/12CO2 isotope ratio in human breath. Tunable diode laser absorption spectroscopy （TDLAS） has the advantages of fast response, low drift, good gas selectivity and high detection sensitivity, and it is very convenient to develop a high precision, real-time and online measurement system. A precision laser spectrometer for the measurement of CO2 isotope abundance in human breath （with CO2 concentration of 4~ 5%） or high concentration gas is designed and evaluated based on TDLAS technology. The spectrometer contains a novel compact dense-pattern multipass cell with a small volume of 280 em3 and an effective optical path length of 26.4 m. The cell is in conjunction with a fiber-coupled distributed feedback diode laser operating at 2.008 ~m. Wavelength modulation spectroscopy approach is used. The mass flow, pressure and temperature of the cell are actively controlled, and able to keep long-term stability. The influence of laser power fluctuation is eliminated by fitting the baseline with cubic polynomial to normalize the raw spectrum. Moving window regression is used to remove the influence of frequency drift on measuring isotope abundance. The system measurement precision is improved by wavelet denosing and Kalman filtering. The experimental results demonstrate that moving window regression method not only extends the stability time of the system but also improves the measurement precision of isotope abundance well, the wavelet denoising improves the signal-to-noise ratio by 2 times that by the method of multi-spectral average, the stability time of the system is 100 s given by Allan variance, and the measurement precision of CO2 isotope ratio is 0.067‰ after Kalman filtering. The use of small multi-pass cell and the default of denoising devices make the system more portable and improve the real-time and online measurement performance of the system. In addition to the measurement of laCO2/12CO2 isotope ratio in human breath, by replacing different lasers, the spectrometer can also be used to measure trace gas concentration and the stable isotope abundance of many gas molecules in atmosphere. Therefore, the spectrometer will have broad applications in the areas of medical diagnosis, carbon cycle study and environmental monitoring.
关键词	激光吸收光谱稳定同位素呼吸气体精确度
收录类别	CSCD
语种	中文
CSCD记录号	CSCD:6205661
引用统计	被引频次：2[CSCD] [CSCD记录]
文献类型	期刊论文
条目标识符	http://ir.hfcas.ac.cn:8080/handle/334002/49812
专题	中国科学院合肥物质科学研究院
作者单位	1.中国科学院大气成分与光学重点实验室 2.安庆师范大学物理与电气工程学院 3.中国科学院大气成分与光学重点实验室 4.中国科学院大气成分与光学重点实验室 5.中国科学院安徽光学精密机械研究所, 大气物理化学研究室 6.中国科学院安徽光学精密机械研究所, 大气物理化学研究室 7.中国科学院大气成分与光学重点实验室 8.中国科学院安徽光学精密机械研究所, 大气物理化学研究室 9.中国科学院大气成分与光学重点实验室
推荐引用方式 GB/T 7714	孙明国,马宏亮,刘强,等. 2.0μm附近模拟呼吸气体中~（13）CO_2/~（12）CO_2同位素丰度的高精度实时在线测量[J]. 物理学报,2018,067.
APA	孙明国.,马宏亮.,刘强.,曹振松.,王贵师.,...&饶瑞中.(2018).2.0μm附近模拟呼吸气体中~（13）CO_2/~（12）CO_2同位素丰度的高精度实时在线测量.物理学报,067.
MLA	孙明国,et al."2.0μm附近模拟呼吸气体中~（13）CO_2/~（12）CO_2同位素丰度的高精度实时在线测量".物理学报 067(2018).