Energy transfer in OH, CH and NO: Implications for quantitative LIF measurements

Abstract: Collision-induced processes (quenching, rotational and vibrational energy transfer, polarization scrambling) affect most LIF experiments. For OH, CH and NO, these processes are studied with picosecond resolution. Methods to obtain quench-free data and implications for flame measurements are discussed.

“…The predicted lifetimes τ Ar and τ air are obtained from LASKIN simulations [23]. The fluorescence process after the excitation through the R 1 (4) line was simulated and the temporal profile of the total fluorescence was fitted with a single exponential decay to obtain the respective theoretical lifetime.…”

Spatially resolved measurement of hydroxyl radical (OH) concentration in an argon RF plasma jet by planar laser-induced fluorescence

“…The predicted lifetimes τ Ar and τ air are obtained from LASKIN simulations [23]. The fluorescence process after the excitation through the R 1 (4) line was simulated and the temporal profile of the total fluorescence was fitted with a single exponential decay to obtain the respective theoretical lifetime.…”

Spatially resolved measurement of hydroxyl radical (OH) concentration in an argon RF plasma jet by planar laser-induced fluorescence