Vibrational dynamics of aniline (N2)1 clusters in their first excited singlet state

Abstract

The first excited singlet state S¹ vibrational dynamics of aniline(N₂)₁ clusters are studied and compared to previous results on aniline(CH₄)₁ and aniline(Ar)₁. Intramolecular vibrational energy redistribution (IVR) and vibrational predissociation (VP) rates fall between the two extremes of the CH₄ (fast IVR, slow VP) and Ar (slow IVR, fast VP) cluster results as is predicted by a serial IVR/VP model using Fermi’s golden rule to describe IVR processes and a restricted Rice–Ramsperger–Kassel–Marcus (RRKM) theory to describe unimolecular VP rates. The density of states is the most important factor determining the rates. Two product states, 0⁰ and 10b¹, of bare aniline and one intermediate state ∼(0⁰) in the overall IVR/VP process are observed and time resolved measurements are obtained for the 0⁰₀ and ∼(0⁰₀) transitions. The results are modeled with the serial mechanism described above.