Abstract
We present our experimental results on the compressibility of strongly coupled (nonideal) degenerate deuterium and helium plasmas quasi-isentropically compressed to pressures P ~ 20 TPa in devices with a spherical geometry. The trajectories of the plasma-compressing metallic shells were recorded with the help of powerful pulsed X-ray sources (betatrons) with a boundary electron energy of 60 MeV. A high-current accelerator with a penetrability of objects with an equivalent thickness of 250-mm of lead has been used for the first time as an X-ray source in our experiments. Plasma densities up to ρ ≈ 14 g cm–3 were determined from the measured radius of the shell at the instant of its “stopping.” We derived the compressed-plasma pressure based on our gasdynamic computations including the real characteristics of the experimental devices.
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ACKNOWLEDGMENTS
We are grateful to the research workers that participated in organizing and conducting the experiments and processing the data: R.V. Borisov, S.E. Elfimov, A.S. Pupkov, A.V. Romanov, D.P. Turutin, A.I. Gurkin, M.V. Loginov, D.A. Linyaev, G.S. Yandubaev, V.V. Erastov, and V.V. Kovaldov.
Funding
This work was supported by the National Center for Physics and Mathematics, the Minisitry of Science and Higher Education of Russia (contract no. 075-15-2020-785 with the Joint Institute for High Temperatures of the Russian Academy of Sciences and a program for the creation of youth laboratories (scientific topic Gas Dynamics and the Physics of Explosion)), the Russian Foundation for Basic Research (project nos. 19-32-90193, 20-02-00287), the State assignment (State registration number AAA-A19-119071190040-5), and the Federal State Unitary Enterprise “RFNC–VNIIEF”–Institute for Problems of Chemical Physics of the Russian Academy of Sciences (contract no. 253/21).
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Mochalov, M.A., Il’kaev, R.I., Fortov, V.E. et al. Compressibility of Nonideal Deuterium and Helium Plasmas up to 20 TPa. J. Exp. Theor. Phys. 133, 630–648 (2021). https://doi.org/10.1134/S106377612111011X
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DOI: https://doi.org/10.1134/S106377612111011X