State-to-state excitation of NO(A 2Σ+, v′=0,1,2) by N2(A 3Σ+u, v′=0,1,2)

Abstract

We have determined that the rate coefficient for quenching N₂(A ³Σ⁺_u, v′=0) by NO is (6.6±1.0)×10⁻¹¹ cm³ molecule⁻¹ s⁻¹. Higher levels of N₂(A) appear to be quenched with a similar rate coefficient. Separate studies show that the rate coefficient for the excitation of NO(A ²Σ⁺, v′=0−2) by N₂(A ³Σ⁺_u, v′=0) is (10±3)×10⁻¹¹ cm³ molecule⁻¹ s⁻¹. The apparent discrepancy between the quenching and excitation rate coefficient measurements most likely results from an error in the accepted value of the lifetime N₂(A). Our studies indicate that this lifetime is probably about 30% longer than currently believed. We also report rate coefficients for excitation of each of the vibrational levels 0–2 of NO(A) by each of the vibrational levels 0–2 of N₂(A) relative to the rate coefficient for excitation of NO(A, v′=0) by N₂(A, v′=0).