Transients of Volume-Controlled Current and of Recombination Radiation in Anthracene

Abstract

The transients of volume‐controlled doubly injected currents and of the accompanying recombination radiation were measured on anthracene crystals. By this method, which allows the trap‐free case to be approximated, the carrier recombination rate constant K was determined in a more reliable way than is possible with steady‐state currents. The result, K=(1.05±0.5)×10⁻⁶ cm³ sec⁻¹, agrees well with the theoretical value predicted by a model in which the rate is a function of carrier mobility. The recombination fluorescence was found to consist of two components differing by their rise times. The fast component, I_fast, is due to singlet excitons generated directly by carrier recombination. The slow component, I_slow, is proof that carrier recombination produces also triplet excitons (which can recombine to give singlets producing fluorescence). The ratio I_slow/I_fast=0.65±0.1 indicates that two recombining triplet excitons do not always produce a singlet exciton but may also form an excited triplet exciton. In addition, the light transient measurements permitted the determination of the total rate constant, γ_total, of triplet—triplet recombination in a novel way. The result is γ_total=(4–8)×10⁻¹² cm³ sec⁻¹.