Author
Listed:
- Alexei Shurupov
(Joint Institute for High Temperatures of the Russian Academy of Sciences (JIHT RAS), 125412 Moscow, Russia)
- Alexander Kozlov
(Joint Institute for High Temperatures of the Russian Academy of Sciences (JIHT RAS), 125412 Moscow, Russia)
- Mikhail Shurupov
(Joint Institute for High Temperatures of the Russian Academy of Sciences (JIHT RAS), 125412 Moscow, Russia)
- Valentina Zavalova
(Joint Institute for High Temperatures of the Russian Academy of Sciences (JIHT RAS), 125412 Moscow, Russia)
- Anatoly Zhitlukhin
(State Research Center of the Troitsk Institute for Innovation & Fusion Research (SRC RF TRINITI), 142190 Moscow, Russia)
- Vitalliy Bakhtin
(State Research Center of the Troitsk Institute for Innovation & Fusion Research (SRC RF TRINITI), 142190 Moscow, Russia)
- Nikolai Umrikhin
(State Research Center of the Troitsk Institute for Innovation & Fusion Research (SRC RF TRINITI), 142190 Moscow, Russia)
- Alexei Es’kov
(State Research Center of the Troitsk Institute for Innovation & Fusion Research (SRC RF TRINITI), 142190 Moscow, Russia)
Abstract
The pulse source for plasma-accelerators supply operates under the conditions of nonlinear growth of load inductance, which complicates the matching of the source and the load. This article presents experimental studies of the use of both traditional pulse-energy sources based on capacitive storage and alternative ones based on explosive magnetic generators (EMG). It is shown that the EMG with the special device of the current-pulse formation more effectively matches with such a plasma load as the pulse plasma-accelerator (PPA). This device allows a wide range to manage the current-pulse formation in a variable load and, consequently, to optimize the operation of the power source for the specific plasma load. A mathematical model describing the principle of operation of this device in EMG on inductive load was developed. The key adjustable parameters are the current into the load, the residual inductance of the EMG, and the sample time of the specified inductance and the final current in the load. The device was successfully tested in experiments with the operation on both one and two accelerators connected in parallel. In the experiments, the optimal mode of device operation was found in which the total energy inputted to a pair of accelerators in one pulse reached 0.55 MJ, and the maximum current reached about 3.5 MA. A comparison with the results of experiments performed with capacitive sources of the same level of stored energy is given. The experiments confirmed not only the principal possibility of using EMG with a special device of current-pulse formation for operation with plasma loads in the MJ energy range but also showed the advantages of its application with specific types of plasma load.
Suggested Citation
Alexei Shurupov & Alexander Kozlov & Mikhail Shurupov & Valentina Zavalova & Anatoly Zhitlukhin & Vitalliy Bakhtin & Nikolai Umrikhin & Alexei Es’kov, 2018.
"Pulse-Current Sources for Plasma Accelerators,"
Energies, MDPI, vol. 11(11), pages 1-12, November.
Handle:
RePEc:gam:jeners:v:11:y:2018:i:11:p:3057-:d:181064
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