[1] O BOUCHER, A BORELLA, T GASSER et al. On the contribution of global aviation to the CO2 radiative forcing of climate. Atmospheric Environment, 267, 118762(2021).
[2] 刘卫, 位楠楠, 王广华, 等. 碳同位素比技术定量估算城市大气CO2的来源[J]. 环境科学, 2012, 33(4): 1041-1049.LIUW, WEIN N, WANGG H, et al. Quantitative estimation source of urban atmospheric CO2 by carbon isotope composition[J]. Chinese Journal of Environmental Science, 2012, 33(4): 1041-1049.(in Chinese)
[3] 袁峰, 高晶, 姚路, 等. 球载CRDS高灵敏度甲烷测量系统的研制[J]. 光学 精密工程, 2020, 28(9): 1881-1892. doi: 10.37188/OPE.20202809.1881YUANF, GAOJ, YAOL, et al. Development of highly sensitive balloon-borne methane measurement system based on cavity ringdown spectroscopy[J]. Opt. Precision Eng., 2020, 28(9): 1881-1892.(in Chinese). doi: 10.37188/OPE.20202809.1881
[4] Y K AI, J LI, Q Y LI et al. Cavity ringdown spectroscopy of nitric oxide in the ultraviolet region for human breath test. Journal of Breath Research, 14(2020).
[5] K MONDAL, R KAIPARA, B RAJAKUMAR. Investigation of the absorption cross section of phenyl radical and its kinetics with methanol in the gas phase using cavity ring-down spectroscopy and theoretical methodologies. The Journal of Physical Chemistry A, 123, 9682-9692(2019).
[6] J N WANG, L J ZHENG, X T NIU et al. Design and fabrication of a mid-infrared carbon dioxide sensor for the application in greenhouse environment. Optoelectronics Letters, 12, 379-383(2016).
[7] M B ESLER, D W T GRIFFITH, S R WILSON et al. Precision trace gas analysis by FT-IR spectroscopy. 1. simultaneous analysis of CO2, CH4, N2O, and CO in air. Analytical Chemistry, 72, 206-215(2000).
[8] 李明星, 陈兵, 阮俊, 等. 近海大尺度区域二氧化碳的激光在线探测技术[J]. 光学 精密工程, 2020, 28(7): 1424-1432. doi: 10.37188/OPE.20202807.1424LIM X, CHENB, RUANJ, et al. On-line detection of carbon dioxide in large scale offshore by laser technology[J]. Opt. Precision Eng., 2020, 28(7): 1424-1432.(in Chinese). doi: 10.37188/OPE.20202807.1424
[9] H H FUNKE, B L GRISSOM, C E MCGREW et al. Techniques for the measurement of trace moisture in high-purity electronic specialty gases. Review of Scientific Instruments, 74, 3909-3933(2003).
[10] D ROMANINI, A A KACHANOV, N SADEGHI et al. CW cavity ring down spectroscopy. Chemical Physics Letters, 264, 316-322(1997).
[11] B A PALDUS, J S HARRIS, J MARTIN et al. Laser diode cavity ring-down spectroscopy using acousto-optic modulator stabilization. Journal of Applied Physics, 82, 3199-3204(1997).
[12] J W HAHN, Y S YOO, J Y LEE et al. Cavity ringdown spectroscopy with a continuous-wave laser: calculation of coupling efficiency and a new spectrometer design. Applied Optics, 38, 1859-1866(1999).
[13] Y HE. Rapidly swept continuous-wave cavity-ringdown spectroscopy. Chemical Physics Letters, 512, 1-20(2011).
[14] B CHEN, Y R SUN, Z Y ZHOU et al. Ultrasensitive, self-calibrated cavity ring-down spectrometer for quantitative trace gas analysis. Applied Optics, 53, 7716(2014).
[15] E R CROSSON. A cavity ring-down analyzer for measuring atmospheric levels of methane, carbon dioxide, and water vapor. Applied Physics B, 92, 403-408(2008).
[16] J D WANG, J YU, Z Q MO et al. Multicomponent gas detection based on concise CW-cavity ring-down spectroscopy with a bow-Tie design. Applied Optics, 58, 2773(2019).
[17] 宋绍漫. 连续波光腔衰荡光谱装置及痕量甲烷检测研究[D]. 长春: 中国科学院大学(中国科学院长春光学精密机械与物理研究所), 2019.SONGS M. Continuous Wave Cavity Ring-Down Spectroscopy Device and Trace Methane Detection[D]. Changchun: Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, 2019. (in Chinese)
[18] R M GUO, J H TENG, K CAO et al. Comb-assisted, Pound-Drever-Hall locked cavity ring-down spectrometer for high-performance retrieval of transition parameters. Optics Express, 27, 31850(2019).
[19] 马国盛, 刘英, 邓昊, 等. 高精细度光学反馈腔衰荡光谱技术[J]. 光学 精密工程, 2022, 30(19): 2305-2312. doi: 10.37188/OPE.20223019.2305MAG S, LIUY, DENGH, et al. High finesse optical feedback cavity ringdown spectroscopy[J]. Opt. Precision Eng., 2022, 30(19): 2305-2312. (in Chinese). doi: 10.37188/OPE.20223019.2305
[20] J BURKART, D ROMANINI, S KASSI. Optical feedback frequency stabilized cavity ring-down spectroscopy. Optics Letters, 39, 4695(2014).
[21] 胡迈, 陈祥, 张辉, 等. 一次谐波锁频的快速光腔衰荡光谱检测[J]. 光学 精密工程, 2022, 30(4): 363-371. doi: 10.37188/OPE.20223004.0363HUM, CHENX, ZHANGH, et al. Fast optical cavity ring-down spectroscopy detection based on first harmonic frequency locking[J]. Opt. Precision Eng., 2022, 30(4): 363-371. (in Chinese). doi: 10.37188/OPE.20223004.0363
