Laboratory modeling of big bang nucleosynthesis using powerful laser facilities

The processes and problems of big bang nucleosynthesis are considered. Powerful laser pulses allow us to obtain high energy density in matter. Thus, laboratory modeling of big bang nucleosynthesis becomes feasible. Results of experiments on the picosecond laser facility 'Neodymium' and on...

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Veröffentlicht in:	Laser physics 2017-06, Vol.27 (6), p.66001
Hauptverfasser:	Belyaev, V S, Zagreev, B V, Kedrov, A Yu, Kovkov, D V, Lobanov, A V, Matafonov, A P, Savel'ev, A B, Mordvincev, I M, Tsymbalov, I N, Shulyapov, S A, Paskhalov, A A, Eremin, N V, Krainov, V P
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Sprache:	eng
Schlagworte:	fusion reactions laser plasmas nuclear astrophysics nucleosynthesis strong laser fields
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creator	Belyaev, V S Zagreev, B V Kedrov, A Yu Kovkov, D V Lobanov, A V Matafonov, A P Savel'ev, A B Mordvincev, I M Tsymbalov, I N Shulyapov, S A Paskhalov, A A Eremin, N V Krainov, V P
description	The processes and problems of big bang nucleosynthesis are considered. Powerful laser pulses allow us to obtain high energy density in matter. Thus, laboratory modeling of big bang nucleosynthesis becomes feasible. Results of experiments on the picosecond laser facility 'Neodymium' and on the femtosecond terawatt laser are reported. Further investigations of this topic are discussed.
doi_str_mv	10.1088/1555-6611/aa684e
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subjects	fusion reactions laser plasmas nuclear astrophysics nucleosynthesis strong laser fields
title	Laboratory modeling of big bang nucleosynthesis using powerful laser facilities
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