Numerical analysis of quantitative measurement of hydroxyl radical concentration using laser-induced fluorescence in flame
Chen Shuang1, 2, †, , Su Tie2, Zheng Yao-Bang2, Chen Li2, Liu Ting-Xu2, Li Ren-Bing2, Yang Fu-Rong1, 2
       

Simulated population densities for several rotational levels in OH(A, v′ = 0) with excitation line Q1(6) (0–0) in flame at different temperatures and pressures: (a) 1000 K/0.1 MPa, (b) 2000 K/0.1 MPa, (c) 1000 K/1 MPa, and (d) 2000 K/1 MPa.