Mechanisms for the formation and transport of ion fluxes in the plasma of a high-current vacuum spark

“…Experi ments were carried out on a setup of the type of a high current vacuum spark [1]. The discharge is initiated in the products of erosion of electrode materials (iron) in the initial vacuum not worse than 10 -2 Pa.…”

“…The spatial structure of X ray sources in the micropinch discharge has been studied comprehen sively, but the structure of ion emission sources have not been investigated as of yet [1].…”

Some features of the directional pattern of ion emission from a micropinch discharge

“…Experi ments were carried out on a setup of the type of a high current vacuum spark [1]. The discharge is initiated in the products of erosion of electrode materials (iron) in the initial vacuum not worse than 10 -2 Pa.…”

“…The spatial structure of X ray sources in the micropinch discharge has been studied comprehen sively, but the structure of ion emission sources have not been investigated as of yet [1].…”

Some features of the directional pattern of ion emission from a micropinch discharge

“…cess, which is characterized by the formation of an object that came to be known as a "hot spot" or micropinch [8,9,12,18]. The charge of the recorded ions is determined by their recombination in the cold peripheral plasma ejected into the electrode gap dur ing the ablation of the electrode material [19]. Since the velocity of the ablation products is as low as ∼10 3 m/s, they have no time to leave the electrode gap by the instant of micropinch formation, when fast ions are generated [20].…”

Experimental study of the spatial structure of high-energy ion sources in micropinch

“…Разряд инициируется путём инжекции в межэлектродное пространство форплазмы от вспомогательного относительно слаботочного инициирующего устройства эро-зионного типа, разрядная цепь которого вклю-чает в себя питающий конденсатор (2), вакуум-ный управляемый разрядник (3) и электродный узел (4). С помощью калиброванного пояса Роговского (5) измерялась достигаемая сила тока в цепи основного разряда [7]. Сигнал с ещё одного пояса Роговского (6), который регистрировал магнитное поле в цепи вспомогательного разряда, выполнял функцию опорного для осуществления синхрон и-зации диагностической аппаратуры.…”

Some of the Observed Features of the Radiation Compression in the Micropinch Discharge