Controllable Decomposition in Ahm Crystals in Ultraviolet Radiation

Abstract: Solid-phase chemical reaction speed control is one of the most essential problems of physics and chemistry of solid bodies. Special attention is paid to the studies of sensitivity and stability of explosive substances (ES). Fundamental issues of studies of azides of heavy metals (AHM) are connected with developing ways of controlling new chemical reactions – solid-phase chain reactions in which electron excitations of a crystal lattice serve as active particles. Applied value is determined by safety issues of … Show more

“…Even in a slightly inhomogeneous magnetic field with a small trajectory curvature radius r against the zone, in which the value or direction of the magnetic field intensity vector Н changes significantly, the force lines are arched, as the consequence, a charged particle moves more complexly [9]. This motion results from: 1) rotation along the Larmour circle with radius r and frequency…”

“…The sizes of these crystals are not changed in the magnetic field, and dislocations are not registered in them by the etch-pit method. These properties were referred to the reducing concentration of impurities by 30% with regard to the dependence of silver azide reactivity on impurity concentration and density of edge dislocations [5,8,9].…”

The Effect of Magnetic Field on Crystallization and some Properties of Silver Azide Crystals

“…Even in a slightly inhomogeneous magnetic field with a small trajectory curvature radius r against the zone, in which the value or direction of the magnetic field intensity vector Н changes significantly, the force lines are arched, as the consequence, a charged particle moves more complexly [9]. This motion results from: 1) rotation along the Larmour circle with radius r and frequency…”

“…The sizes of these crystals are not changed in the magnetic field, and dislocations are not registered in them by the etch-pit method. These properties were referred to the reducing concentration of impurities by 30% with regard to the dependence of silver azide reactivity on impurity concentration and density of edge dislocations [5,8,9].…”

The Effect of Magnetic Field on Crystallization and some Properties of Silver Azide Crystals