[1] J FU, C TANG, W JIN. Effect of preferential diffusion and flame stretch on flame structure and laminar burning velocity of syngas Bunsen flame using OH-PLIF. International Journal of Hydrogen Energy, 39, 12187-12193(2014).

[3] SEEGER T, KLIEWER C, GAO Y, et al. Timeresolved picosecond pure rotational coherent antiStokes raman spectroscopy f flame diagnostics (Invited)[C]. 27th AIAA Aerodynamic Measurement Technology & Ground Testing Conference, Louisiana, 2013.https:www.researchgate.publication268558397_TimeResolved_Picosecond_Pure_Rotational_Coherent_AntiStokes_Raman_Spectroscopy_f_Flame_Diagnostics_Invited

[5] M LACKNER. Tunable diode laser absorption spectroscopy(TDLAS) in the process industries-a review. Reviews in Chemical Engineering, 23, 65-147(2007).

[6] Y WANG, Y WEI, T LIU. TDLAS detection of propane/butane gas mixture by using reference gas absorption cells and partial least square (PLS) approach. IEEE Sensors Journal, 18, 8587-8596(2018).

[7] M RAVIEHANDRAN, F C GOULDIN. Retrieval of asymmetric temperature and concentration profiles from a limited number of absorption measurements. Combustion Science and Technology, 60, 231-248(1988).

[8] M RAVICHANDRAN, F C GOULDIN. Reconstruction of smooth distributions from a limited number of projections. Applied Optics, 27, 4084-97(1988).

[10] PENG D, JIN Y, ZHAI C. Research on reconstruction algithms f 2D temperature field based on TDLAS[C]. AOPC 2015: Optical Optoelectronic Sensing Imaging Technology, International Society f Optics Photonics, 2015.https:www.researchgate.publication300336500_Research_on_reconstruction_algithms_f_2D_temperature_field_based_on_TDLAS

[11] Z NADIR, M BROWN, M COMER. A model-based iterative reconstruction approach to tunable diode laser absorption tomography. IEEE Transactions on Computational Imaging, 3, 876-890(2017).

[12] H H XIA, R F KAN, J G LIU. Analysis of algebraic reconstruction technique for accurate imaging of gas temperature and concentration based on tunable diode laser absorption spectroscopy. Chinese Physics B, 25, 064205(2016).

[13] BUSA K, MCDANIEL J, DISKIN G, et al. Spatially resolved temperature water vap concentration distributions in supersonic combustion facilities by TDLAT[C]. 49th AIAA Aerospace Sciences Meeting Including the New Hizons Fum Aerospace Exposition, lo, 2011.https:ntrs.nasa.govsearch.jspR=20130001729

[14] Y DEGUCHI, T KAMIMOTO, Y KIYOTA. Time resolved 2D concentration and temperature measurement using CT tunable laser absorption spectroscopy. Flow Measurement and Instrumentation, 46, 312-318(2015).

[15] T KAMIMOTO, Y DEGUCHI, N ZHANG. Real-time 2D concentration measurement of CH4 in oscillating flames using CT tunable diode laser absorption spectroscopy. Journal of Applied Nonlinear Dynamics, 4, 295-303(2015).

[17] L ROTHMAN, I GORDON, Y BABIKOV. The HITRAN2012 molecular spectroscopic database. Journal of Quantitative Spectroscopy and Radiative Transfer, 130, 4-50(2013).

[18] T KAMIMOTO, Y DEGUCHI, Y KIYOTA. High temperature field application of two dimensional temperature measurement technology using CT tunable diode laser absorption spectroscopy. Flow Measurement and Instrumentation, 46, 51-57(2015).

[19] L M PO, K GUO. Transform-domain fast sum of the squared difference computation for H.264/AVC rate-distortion optimization. IEEE Transactions on Circuits & Systems for Video Technology, 17, 765-773(2007).

[20] B PAN. Recent progress in digital image correlation. Experimental Mechanics, 51, 1223-1235(2011).