Excitation Mechanisms of the Nitrogen Frist-Positive and First-Negative Radiation at High Temperature

Abstract

The kinetic mechanisms responsible for the excitation of the first‐positive and first‐negative emission of nitrogen have been investigated in a re‐examination of previously reported shock‐tube measurements of the nonequilibrium radiation for these systems. The rate coefficients of the collisional quenching reactions, $${\mathrm{N}}_2{\mathrm{(A}}^3{\Sigma }_u^{+}\mathrm{)+}\mathrm{N}{(}^4\mathrm{S)\Rightarrow }{\displaystyle {lim}^{k_{\text{−2}}^{(\mathrm{N})}}}{\mathrm{N}}_2{\mathrm{(X\hspace{0.17em}}}^1{\Sigma }_g^{+}\mathrm{)+}\mathrm{N}{(}^4\mathrm{S)}$$ and $${\mathrm{N}}_2^{+}{\mathrm{(B\hspace{0.17em}}}^2{\Sigma }_u^{+}\mathrm{)+}{\mathrm{N}}_2{\mathrm{(X\hspace{0.17em}}}^1{\Sigma }_g^{+}\mathrm{)\Rightarrow }{\displaystyle {lim}^{k_q^{({\mathrm{N}}_2)}}}{\mathrm{N}}_2^{+}{\mathrm{(X\hspace{0.17em}}}^2{\Sigma }_g^{+}\mathrm{)\hspace{0.17em}\hspace{0.17em}\hspace{0.17em}}\mathrm{or}\mathrm{\hspace{0.17em}\hspace{0.17em}\hspace{0.17em}}{\mathrm{N}}_2^{+}{\mathrm{(A\hspace{0.17em}}}^2{\Pi }_u\mathrm{)+}{\mathrm{N}}_2{\mathrm{(X\hspace{0.17em}}}^1{\Sigma }_g^{+})$$ were found to be given by the empirical expressions, $k_{\text{−2}}^{(\mathrm{N})}{\text{=5.1× 10}}^{\text{−3}}{\mathrm{\hspace{0.17em}T}}^{\text{−2.23}}\hspace{0.17em}{\mathrm{cm}}^3\hspace{0.17em}{\sec }^{\text{−1}}$ and $k_q^{({\mathrm{N}}_2)}{\text{=1.9 × 10}}^{\text{−2}}{\mathrm{\hspace{0.17em}T}}^{\text{−2.33}}\hspace{0.17em}{\mathrm{cm}}^3\hspace{0.17em}{\sec }^{\text{−1}},$ respectively, over the approximate temperature range 6000–14 000°K.