Some properties of ZnS-Cu-Co phosphors under 3650 .~ excitation are described, viz., the thermal glow, decay, and buildup of fluorescence, temperature dependence, and light sum. Most of the experimental results can be explained by a model in which cobalt levels act both as electron traps with a trap depth of 0.5 electron volt (ev), and as ~c-ceptors for holes, ejected thermally from copper centers with an activation energy of 1.1 ev. The possibility of excitation by 3650 A radiation of electrons from traps to the conduction band is introduced to explain the observed intensity dependence of the light suln.
The impurity levels in the energy diagram of a zinc sulfide phosphor are considered to be localized S2− levels lifted above the filled S2− band due to the presence of monovalent positive or trivalent negative activator ions in the lattice. Electron traps are formed similarly by the substitution of S ions by monovalent negative ions or of Zn2+ ions by trivalent positive ions. The energy produced when electrons recombine with trapped holes or when holes recombine with trapped electrons is either emitted directly as light or is first transferred to impurity ions. The elements of the iron group give rise to electron traps. The killing action of these elements is explained by assuming that the energy liberated by recombination between holes and electrons in these traps is transferred to the killer ions. The excited ions return to the ground state radiationless because of the presence of many electronic levels between the excited and the ground state. The effect of heat and infrared radiation on the luminescence is discussed. It is shown that, in a phosphor, energy may be transferred by electrons through the conduction band or by holes through the occupied S2− band.
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