Abstract

Synchrotron radiation from the Stanford storage ring (SPEAR) was used to measure the radiative decay constants of the lowest-lying excited electronic states of Xe2. Both a monochromator and interference filters were used in the fluorescence channel. The results suggest that at low pressures (PXe<125 Torr) there is substantial deviation from the Stern–Volmer behavior predicted by the three-state models used previously to describe this lasing system. A new theoretical analysis was developed that includes participation in the kinetic scheme of intermediate vibrational levels of the O+u and 1u manifolds.

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