Abstract
A double liner concept is proposed of utilizing pulsed power in investigations of Inertial Confinement Fusion (ICF) and High Energy Density Physics. In this project, an external cylindrical plasma shell (liner) magnetically imploded in the generator diode collides with the internal one. Thermal X-ray radiation brought about by a high-velocity shock wave penetrates into the internal liner cavity and irradiates a spherical target. Investigations at the ANGARA-5 generator were concentrated on a comprehensive study of physical processes and the possibility of short radiation pulse generation. Soft X-ray radiation intensities of up to 3 TW/cm{sup 2} with a 3 ns rise time were obtained. It follows from the theoretical model that for the generator current higher than 15 MA the radiation intensity should be close to the ignition threshold and magnetized plasma instabilities should be suppressed. The paper reports on the concept and the theoretical and experimental results. (author). 8 refs.
Branitskij, A V;
Grabovskij, E V;
Fedulov, M V
[1]
- Troitsk Inst. for Innovation and Thermonuclear Investigation, Troitsk (Russian Federation); and others
Citation Formats
Branitskij, A V, Grabovskij, E V, and Fedulov, M V.
ANGARA-5-1 program development on superfast liner implosion for ICF physics study and basic research.
Czech Republic: N. p.,
1996.
Web.
Branitskij, A V, Grabovskij, E V, & Fedulov, M V.
ANGARA-5-1 program development on superfast liner implosion for ICF physics study and basic research.
Czech Republic.
Branitskij, A V, Grabovskij, E V, and Fedulov, M V.
1996.
"ANGARA-5-1 program development on superfast liner implosion for ICF physics study and basic research."
Czech Republic.
@misc{etde_511286,
title = {ANGARA-5-1 program development on superfast liner implosion for ICF physics study and basic research}
author = {Branitskij, A V, Grabovskij, E V, and Fedulov, M V}
abstractNote = {A double liner concept is proposed of utilizing pulsed power in investigations of Inertial Confinement Fusion (ICF) and High Energy Density Physics. In this project, an external cylindrical plasma shell (liner) magnetically imploded in the generator diode collides with the internal one. Thermal X-ray radiation brought about by a high-velocity shock wave penetrates into the internal liner cavity and irradiates a spherical target. Investigations at the ANGARA-5 generator were concentrated on a comprehensive study of physical processes and the possibility of short radiation pulse generation. Soft X-ray radiation intensities of up to 3 TW/cm{sup 2} with a 3 ns rise time were obtained. It follows from the theoretical model that for the generator current higher than 15 MA the radiation intensity should be close to the ignition threshold and magnetized plasma instabilities should be suppressed. The paper reports on the concept and the theoretical and experimental results. (author). 8 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}
title = {ANGARA-5-1 program development on superfast liner implosion for ICF physics study and basic research}
author = {Branitskij, A V, Grabovskij, E V, and Fedulov, M V}
abstractNote = {A double liner concept is proposed of utilizing pulsed power in investigations of Inertial Confinement Fusion (ICF) and High Energy Density Physics. In this project, an external cylindrical plasma shell (liner) magnetically imploded in the generator diode collides with the internal one. Thermal X-ray radiation brought about by a high-velocity shock wave penetrates into the internal liner cavity and irradiates a spherical target. Investigations at the ANGARA-5 generator were concentrated on a comprehensive study of physical processes and the possibility of short radiation pulse generation. Soft X-ray radiation intensities of up to 3 TW/cm{sup 2} with a 3 ns rise time were obtained. It follows from the theoretical model that for the generator current higher than 15 MA the radiation intensity should be close to the ignition threshold and magnetized plasma instabilities should be suppressed. The paper reports on the concept and the theoretical and experimental results. (author). 8 refs.}
place = {Czech Republic}
year = {1996}
month = {Dec}
}