Abstract
AbstractThe visible luminescence spectrum of solid neon containing small amounts of N2 or O2 is investigated at 7.8 K using low‐energy electrons. Double‐doping experiments employing N2 and × (where × is either O2, CO or Ar) are also carried out. Particular attention is given to the interpretation of the α(N2D—4S) transition of matrix‐trapped N atoms, and to a lesser extent the β(O1S—1D) transition of matrix‐isolated O atoms. The spectral intensity distribution within these transitions is photoelectrically recorded and for the long lived α transition, afterglow spectra are also presented. The structure of the α transition is shown to depend upon both the ratio of the N2 and × concentrations as well as the total [N2 + X] concentration, for total guest concentrations in the range from 0.01% to 0.1%. The components which comprise this emission arise from N atoms trapped in two characteristic sites denoted “substitutional”‐ and “impurity”‐affected. This same interpretation also applies in large part to the β transition of trapped O atoms.
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