Deuteron flux production in a small high-voltage high-current diode with pulsed magnetic insulation


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Abstract

The results of new studies on the production of accelerated deuteron fluxes in a small ion diode with pulsed magnetic insulation of electrons have been presented. A plasma anode of the diode has been formed under the action of a 1.06 μm laser radiation with a pulse duration of 10 ns, a pulse energy of up to 1 J, and a power density on the target of 5 × 1015 W m–2. An accelerating voltage of up to 300 kV has been created using an Arkad’ev–Marx pulsed voltage generator with a stored energy of 50 J and a repetition rate of 1 Hz. A magnetic field of higher than 0.6 T for insulating electrons has been formed by a current pulse of the first cascade of the generator in a spiral line before a conical cascade. Stable deuteron acceleration to 300 keV with a current of up to 1.5 kA and a pulse duration of 0.3 μs has been achieved.

About the authors

A. E. Shikanov

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Email: vlshatokhin@mephi.ru
Russian Federation, Moscow, 115409

E. D. Vovchenko

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Email: vlshatokhin@mephi.ru
Russian Federation, Moscow, 115409

A. A. Isaev

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Email: vlshatokhin@mephi.ru
Russian Federation, Moscow, 115409

K. I. Kozlovskii

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Email: vlshatokhin@mephi.ru
Russian Federation, Moscow, 115409

V. L. Shatokhin

National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)

Author for correspondence.
Email: vlshatokhin@mephi.ru
Russian Federation, Moscow, 115409

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