Comparative Analysis of the Rayleigh-Taylor Instability Suppression During Compression of Metallic Gas-Puff Z Pinch at the MIG and GIT-12 Facilities / A. Zhigalin, A. Rousskikh, V. I. Oreshkin [et al.]
Язык: английский.Резюме или реферат: We present experiments on implosion of metallic gas-puff Z-pinches. Experiments were performed on the MIG and GIT-12 pulse power generators. The MIG is a multifunctional pulse power generator with current amplitude of 2.5 MA and a current rise time of ~ 100 ns [1]. The GIT-12 is an Arkadiev-Marx pulse power generator. It provides the current of 4.7 MA with the current rise time of 1.7 ȝs in the short-circuit load [2]. Metallic gas-puff was the main element of the load on both generators. Metallic gas-puff Z-pinches were formed using plasma guns where plasma production was initiated by a high current vacuum arc discharge [3]. All of the plasma gun electrodes were made of magnesium or aluminum. To visualize the process of metallic gas-puff Z-pinch implosion, we performed time-gated imaging of the visible pinch radiation. An HSFC-Pro 4-channel, 12-bit intensified charge-coupled device (ICCD) camera was used to take 4 successive images in a single shot. The image analysis had shown that during implosion of the metallic gas-puff Z-pinch, the Rayleigh-Taylor instabilities were suppressed. Final pinch implosion diameter was determined. The optimal (from the point of view of radiation output in magnesium K-shell radiation) formation time of a plasma jet of a vacuum-arc discharge was determined..Примечания о наличии в документе библиографии/указателя: [References: p. 231 (8 tit.)].Аудитория: .Тематика: электронный ресурс | труды учёных ТПУ | vacuum arc | plasma | pinch stability | вакуумные дуги | плазма | газы | установки | неустойчивость Рэлея-Тейлора Ресурсы он-лайн:Щелкните здесь для доступа в онлайнTitle screen
[References: p. 231 (8 tit.)]
We present experiments on implosion of metallic gas-puff Z-pinches. Experiments were performed on the MIG and GIT-12 pulse power generators. The MIG is a multifunctional pulse power generator with current amplitude of 2.5 MA and a current rise time of ~ 100 ns [1]. The GIT-12 is an Arkadiev-Marx pulse power generator. It provides the current of 4.7 MA with the current rise time of 1.7 ȝs in the short-circuit load [2]. Metallic gas-puff was the main element of the load on both generators. Metallic gas-puff Z-pinches were formed using plasma guns where plasma production was initiated by a high current vacuum arc discharge [3]. All of the plasma gun electrodes were made of magnesium or aluminum. To visualize the process of metallic gas-puff Z-pinch implosion, we performed time-gated imaging of the visible pinch radiation. An HSFC-Pro 4-channel, 12-bit intensified charge-coupled device (ICCD) camera was used to take 4 successive images in a single shot. The image analysis had shown that during implosion of the metallic gas-puff Z-pinch, the Rayleigh-Taylor instabilities were suppressed. Final pinch implosion diameter was determined. The optimal (from the point of view of radiation output in magnesium K-shell radiation) formation time of a plasma jet of a vacuum-arc discharge was determined.
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