Multiphoton resonance ionization bands in I2

Abstract

Multiphoton resonance ionization (MPRI) bands of I₂ vapor have been examined in the 360–600 nm region. A band system with T₀ =48 426±4 cm⁻¹ and ω_e=254±1 cm⁻¹ is assigned to a two‐photon resonant intermediate state involved in either three‐ or four‐photon ionization. Polarization measurements establish that the transition is either 1g or 2g←0g. Comparison to the Dalby system (2d), 5146 cm⁻¹ to higher energy allows a more detailed interpretation of the excited states of both systems: 2g (²Π_3/2g) nsσg and 1g (²Π_1/2g) nsσg, respectively. Excitation into the visible B←X absorption band between 500 and 600 nm leads to a dense set of MPRI lines. An intense system in this region with T₀ =35 762±4 cm⁻¹ and ω_e=104±1 cm⁻¹ is assigned to a two‐photon resonant intermediate state with polarization measurements establishing it as 0g. It is further interpreted as arising from the two‐electron promotion 0g→σ_u, π_u→σ_u. A striking feature of the MPRI spectra of I₂ is the near absence of lines corresponding to the normal optical bands and also the absence of many possible multiphoton transitions allowed by selection rules. The cross section of the B→X transition does occur prominently in the spectrum multiplicatively superimposed on the higher resonances, however.