Using the method of thermally stimulated luminescence, the phenomenon of spatial modulation of the capture cross section (S t ) of electron traps with a level of E c − 0.18 eV in powdery luminophors Zn 0.97 Cd 0.03 S ICu, ClJ with green luminescence and ZnSIAg, ClJ with blue luminescence by a collective electric field of macroinhomogeneity has been investigated. The maximum value of the effect (width of the range of values of S t ) attains five orders of magnitude, with the size of the powder grains being of order 1 µm. A model is suggested, according to which traps with E c − 0.18 eV with an extended range of values of S t represent an isolated anionic vacancy in a region of the collective field of macroscopic inhomogeneity that is the negatively charged surface of the powder grains. The extension of the range of values of S t is the result of modulation of the kinetic parameters of electron traps E c − 0.18 eV depending on the spatial position occupied by the anionic vacancy relative to the surface of the powder grains.Introduction. According to model representations [1-3], slow electron traps with anomalous kinetic properties (almost inexplicable from the viewpoint of both the dynamic mechanism of charge-carrier capture and static charge state of traps) are point defects in the region of large-scale disturbances of crystals with collective electric fields that repel the majority carriers. While the electron capture cross sections (S t ) of fast and slow traps are proper (not disturbed by other defects), the cross sections S t of the traps localized in the region of large-scale disturbances of the crystal acquire an effective character due to being modulated by collective electric fields. This models leads to a number of consequences. In particular, irrespective of the behavior of energy parameters, the section S t of an individual trap can take a range of values [2] as a result of the distribution of the trap atoms over the entire volume of microinhomogeneity, within the limits of which the potential of the collective electric field undergoes a change.In [3], using an electron trap with a level of E c − 0.2 eV in a γ-La 2 S 3 crystal as an example, results of the first experimental investigations are presented for the phenomenon of spatial modulation of the section S t by a collective electric field of microinhomogeneity. The conclusion was drawn that the role of macroinhomogeneities in γ-La 2 S 3 is played by acceptor-type dislocations. The maximum expansion of the range of values of S t attains four orders of magnitude. In this work, we present the results of investigation of thermally stimulated luminescence (TSL) of powdery luminophors Zn 0.97 Cd 0.03 SICu, ClJ with green emission and ZnSIAg, ClJ with blue emission. * * The size of the powder grains is of the order of 1 µm. These results show that the same electron traps with a level of E c − 0.18 eV and a wide range of S t values (five orders of magnitude) are observed in both powders. The role of macroinhomogeneity with which the electron traps E c − 0.1...
Методом газофазной эпитаксии в вод ороде в проточном реакторе пониженного давления получены качественные гетероэпитаксиальные структуры (0001)ZnO : Te/(0001)GaN/(0001)Аl 2 O 3. Проведен рентгеноструктурный анализ указанных гетероструктур, который показал высокое структурное совершенство тонких слоев оксида цинка. Также изучена морфология поверхности и проведен анализ особенностей ультрафиолетовой фотолюминесценции гетероструктуры ZnO/GaN/Аl 2 O 3 .
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.