Suppression of vibron state formation in Arx(N2)1−x mixed crystals

Abstract

The dephasing of the k≂0 states of the vibrons in Ar_x(N₂)_1−x crystals was studied by picosecond time‐resolved coherent anti‐Stokes Raman scattering as a function of temperature (0<TxT₂ and a temperature dependence of the increasingly faster Gaussian decay is observed. Substitution of N₂ molecules by Ar atoms increases the librational amplitude. Through anharmonic terms in the crystal Hamiltonian the vibron state formation is reduced and as a result, the T₂ time decreases. This suppression of vibron state formation, which counteracts the reduction of the inhomogeneous broadening, is responsible for the increasing and temperature dependent inhomogeneous linewidth. The A_g−T_g factor group splitting increases almost linearly with Ar concentration. Surprisingly, no inhomogeneous line broadening could be resolved for β‐Ar_x(N₂)_1−x crystals and the observed dephasing time T₂ remains long compared to the α phase, even for high Ar concentrations.