Abstract
A multi-module multi-terawatt electrophysical facility “Gamma” is being developed at RFNCVNIIEF, Sarov, Russia. The facility will be used for conducting experiments in different fields of radiation physics. The first module of the facility – a high-current electron accelerator “Gamma-1” has been created. The output electric parameters of the module are as follows: electron energy ≤2.0 MeV, diode current 0.75 MA, maximal electric power 1.5 TW. Description of accelerator design and principles of its operation are presented. Results of experiments as well as further prospects on building a full-scale facility are given.
Highlights
A multi-module multi-terawatt electrophysical facility “Gamma”[1,2] is being developed at RFNC-VNIIEF, Sarov, Russia
The accelerator comprises: two Marx generators GIN-1000,4 a double stepped forming line (DSFL) with a built-in duration converter and multi-channel DSFL switch, a multichannel pre-pulse switch, a water-insulated transmission line (WTL), a vacuum insulator stack, a magnetically insulated transmission line (MITL), a vacuum diode with a target unit as well as technological and supplementary systems. This is an Open Access article published by World Scientific Publishing Company
By present more than 580 shots have been done on the accelerator “Gamma-1”
Summary
A multi-module multi-terawatt electrophysical facility “Gamma”[1,2] is being developed at RFNC-VNIIEF, Sarov, Russia. Each module of the facility will be able to generate electric pulses with output power up to 1.5 TW. The first module of the facility – a highcurrent pulsed electron accelerator “Gamma-1” has been created. The accelerator design is given in detail in Ref. 3
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More From: International Journal of Modern Physics: Conference Series
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