High resolution and sub-Doppler Fourier transform spectroscopy: Iodine molecular fluorescence excited by the 514.5 and 501.7 nm Ar+ laser lines

Abstract

Fluorescence from the I₂ B O⁺_u state, excited by the 514.5 and 501.7 nm cw Ar⁺ laser lines, is recorded using a high resolution Fourier transform spectrometer. Spectra are obtained with both multimode (6 GHz) and single mode (+ lasers, the latter spectra exhibiting reduced Doppler width. B O⁺_u−X ¹Σ⁺_g fluorescence is recorded at 1 mK precision for v″=10–100, eQq″ quadrupole constants are obtained (±5%) from measured linewidths, broadening of quasibound X ¹Σ⁺_g rotational levels above the rotationless X ¹Σ⁺_g dissociation limit is observed, and perturbations of X ¹Σ⁺ v″⩾92 by two previously unobserved long range I₂ molecular states are detected. These two states, 0⁺_g and 1_g, which dissociate into two ²P_3/2 I atoms, are also observed directly in the fluorescence spectrum. This paper presents illustrative examples; constants and a complete analysis will appear subsequently.