[2] Boyarshinov B F， Fedorov S Y. Temperature and OH concentration measurements in alcohol-air amusing laser-induced uorescence[J]. Combust Explo Shock， 2003， 39: 243.

[3] Boyarshinov B F， Fedorov S Y. Measurement of temperature and concentration of OH radicals in combustion of hydrogen and ethanol by the laser-induced fluorescence technique[J]. Combust Explo Shock， 2004， 40: 511.

[4] Kawahara N， Tomita E， Takemoto S， et al. Fuel concentration measurement of premixed mixture using spark-induced breakdown spectroscopy[J]. Spectrochimica Acta B， 2009， 64: 1085.

[5] Laux C O， Kruger C H， Zare R N. Optical diagnostics of atmospheric pressure air plasmas[J]. Plasma Sources Sci T， 2003， 12: 125.

[6] Laux C O， Gessman R J， Kruger C H， et al. Rotational temperature measurements in air and nitrogen plasmas using the first negative system of N 2 +[J]. J Quant Spectrosc RA， 2001， 68: 473.

[7] Chun F S， Tracy M， Fang Y Y. Evaluation of a numerical method to determine the combustion temperature of a rocket engine simulator from OH emission spectra[J]. AIAA， 2003， 37: 50.

[10] Jorge L，David R C. Transition probabilities in the A 2Σ+-X 2Πi electronic system of OH [J]. J Chem Phys， 1998， 109: 439.

[11] Jorge L， David R C. Products of dissociative recombination in the Ionosphere[J]. SRI Report， 1996， 96: 001.

[12] Pellerin S， Cormier J M， Richard F， et al. 1996 J Phys D[J]. Appl Phys， 1997， 6: 26-39.

[13] Diecke G H， Crosswhite H M. The spectra of the doubly and triply Ionized rare earths [J]. J Quant Spectrosc Radiat Transfer， 1961， 2（7）: 297.

[14] Dermeval C J， Luiz G B， Celso A B. The effect of lambda-doublet levels in ethanol flame temperature estimation[J]. J Braz Chem Soc， 2010， 21（9）:1.