Di-iron and nickeliron

Abstract

Resonance Raman progressions assigned to Fe₂ and NiFe isolated in solid Ar and Kr are reported. ω_e^″ and ω_e^″x_e^″ for the two molecules are found to be 299.6 and 1.4 cm⁻¹ and 320.0 and 1.32 cm⁻¹, respectively. In addition, an anti‐Stokes progression of inordinate intensity was observed for Fe₂. On the basis of a laser power study this was suggested to arise from consecutive two‐photon absorption processes which are efficient in this case as a result of very long vibrational relaxation lifetimes of the excited vibrational states of the electronic ground state of Fe₂. No spectrum of Fe₂ was detected in either solid N₂ or solid methane, supporting previous reports that Fe₂ reacts with these substances to form complexes. With high resolution, each of the bands of the resonance Raman progression of Fe₂ is observed to be a multiplet. Some of the multiplet structure results from the expected isotope effect but additional structure is seen because for a particular value of Δv^″ there are transition with different initial values of v^″.