Hole burning in dimethyl-s-tetrazine-doped n-octane leads to very sharp, perfectly Lorentzian antiholes. Their splitting depends on the magnitude of the intramolecular rotational tunnel frequency of the methyl groups in the ground and optically excited states. From the width and the Lorentzian line shape of the antiholes, interesting details on inhomogeneous line broadening can be inferred.
Lorentzian Antihole Formation through Optically Induced Spin Conversion in Doped n-Octane Crystals / G.GRADL;A.FEIS;J.FRIEDRICH. - In: THE JOURNAL OF PHYSICAL CHEMISTRY. - ISSN 0022-3654. - STAMPA. - 96:(1992), pp. 2080-2082. [10.1021/j100184a012]
Lorentzian Antihole Formation through Optically Induced Spin Conversion in Doped n-Octane Crystals
FEIS, ALESSANDRO;
1992
Abstract
Hole burning in dimethyl-s-tetrazine-doped n-octane leads to very sharp, perfectly Lorentzian antiholes. Their splitting depends on the magnitude of the intramolecular rotational tunnel frequency of the methyl groups in the ground and optically excited states. From the width and the Lorentzian line shape of the antiholes, interesting details on inhomogeneous line broadening can be inferred.
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