QUANTUM MECHANICAL ASPECTS OF ELECTRONIC ENERGY TRANSFER IN MOLECUIAR CRYSTALS
Publisher:
Ohio State UniversityAbstract:
The most successful theory in describing the transfer of electronic excitation among dilute crystal impurities, is that of F\”{o}rster and Dexter. This theory is derived quantum mechanically through Fermi’s Golden Rule, but takes into account transfer probabilities rather than probability amplitudes in evaluating the dynamics of energy transfer. A quantum mechanical theory is developed by the proper treatment of the excitation density matrix and of the crystal phonons. This theory reduces to the F\”{o}rster-Dexter theory as a limiting case, and at the same time points to the limitations of that theory.
Description:
Author Institution: Department of Chemistry, Massachusetts Institute of Technology; Department of Chemistry Harvard University, Cambridge, Massachusetts, 02138.
Type:
articleOther Identifiers:
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