Monte-Carlo simulation of the kinetics of nuclear and radiative processes upon fast ignition of the fusion target in a 'double liner' system

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Monte-Carlo simulation of the kinetics of nuclear and radiative processes upon fast ignition of the fusion target in a 'double liner' system. / Andreev, A. A.; Gus'kov, S. Yu; Zakharov, S. V.; Il'in, D. V.; Levkovskii, A. A.; Platonov, K. Yu; Rozanov, V. B.; Sherman, V. E.

в: Quantum Electronics, Том 34, № 5, 05.2004, стр. 393-398.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Author

Andreev, A. A. ; Gus'kov, S. Yu ; Zakharov, S. V. ; Il'in, D. V. ; Levkovskii, A. A. ; Platonov, K. Yu ; Rozanov, V. B. ; Sherman, V. E. / Monte-Carlo simulation of the kinetics of nuclear and radiative processes upon fast ignition of the fusion target in a 'double liner' system. в: Quantum Electronics. 2004 ; Том 34, № 5. стр. 393-398.

BibTeX

@article{a563bf1e276c4c38aaf941f7133ef9c5,

title = "Monte-Carlo simulation of the kinetics of nuclear and radiative processes upon fast ignition of the fusion target in a 'double liner' system",

abstract = "A laser ignition scheme is considered for a fusion target placed in the cavity of a radiating plasma liner produced in a 'double liner' system. It is shown that this scheme can be employed to realise an efficient thermonuclear burst. The precompression and heating of a deuterium tritium target with an iron shell by a thermal radiation pulse was simulated using the TRITON mathematical code for the parameters of the Z-generator at the Sandia National Laboratories (USA). Laser and target parameters were optimised for the ignition of the deuterium-tritium fuel by protons accelerated by laser radiation. The propagation of the thermonuclear burning wave during the fast ignition was calculated employing the TERA mathematical code, which involves Monte-Carlo simulation of the kinetics of fast thermonuclear particles and hard gamma-ray quanta at each time step of hydrodynamic calculations. The dependence of the fusion energy gain G on the ignition energy is theoretically explained. The laser parameters required to obtain G ≪ 1 are determined.",

keywords = "Double liner, Fast ignition, Ignition energy, Inertial nuclear fusion, Laser nuclear fusion, Target energy gain",

author = "Andreev, {A. A.} and Gus'kov, {S. Yu} and Zakharov, {S. V.} and Il'in, {D. V.} and Levkovskii, {A. A.} and Platonov, {K. Yu} and Rozanov, {V. B.} and Sherman, {V. E.}",

year = "2004",

month = may,

doi = "10.1070/QE2004v034n05ABEH002696",

language = "English",

volume = "34",

pages = "393--398",

journal = "Quantum Electronics",

issn = "1063-7818",

publisher = "Turpion Ltd.",

number = "5",

}

RIS

TY - JOUR

T1 - Monte-Carlo simulation of the kinetics of nuclear and radiative processes upon fast ignition of the fusion target in a 'double liner' system

AU - Andreev, A. A.

AU - Gus'kov, S. Yu

AU - Zakharov, S. V.

AU - Il'in, D. V.

AU - Levkovskii, A. A.

AU - Platonov, K. Yu

AU - Rozanov, V. B.

AU - Sherman, V. E.

PY - 2004/5

Y1 - 2004/5

N2 - A laser ignition scheme is considered for a fusion target placed in the cavity of a radiating plasma liner produced in a 'double liner' system. It is shown that this scheme can be employed to realise an efficient thermonuclear burst. The precompression and heating of a deuterium tritium target with an iron shell by a thermal radiation pulse was simulated using the TRITON mathematical code for the parameters of the Z-generator at the Sandia National Laboratories (USA). Laser and target parameters were optimised for the ignition of the deuterium-tritium fuel by protons accelerated by laser radiation. The propagation of the thermonuclear burning wave during the fast ignition was calculated employing the TERA mathematical code, which involves Monte-Carlo simulation of the kinetics of fast thermonuclear particles and hard gamma-ray quanta at each time step of hydrodynamic calculations. The dependence of the fusion energy gain G on the ignition energy is theoretically explained. The laser parameters required to obtain G ≪ 1 are determined.

AB - A laser ignition scheme is considered for a fusion target placed in the cavity of a radiating plasma liner produced in a 'double liner' system. It is shown that this scheme can be employed to realise an efficient thermonuclear burst. The precompression and heating of a deuterium tritium target with an iron shell by a thermal radiation pulse was simulated using the TRITON mathematical code for the parameters of the Z-generator at the Sandia National Laboratories (USA). Laser and target parameters were optimised for the ignition of the deuterium-tritium fuel by protons accelerated by laser radiation. The propagation of the thermonuclear burning wave during the fast ignition was calculated employing the TERA mathematical code, which involves Monte-Carlo simulation of the kinetics of fast thermonuclear particles and hard gamma-ray quanta at each time step of hydrodynamic calculations. The dependence of the fusion energy gain G on the ignition energy is theoretically explained. The laser parameters required to obtain G ≪ 1 are determined.

KW - Double liner

KW - Fast ignition

KW - Ignition energy

KW - Inertial nuclear fusion

KW - Laser nuclear fusion

KW - Target energy gain

UR - http://www.scopus.com/inward/record.url?scp=3843083857&partnerID=8YFLogxK

U2 - 10.1070/QE2004v034n05ABEH002696

DO - 10.1070/QE2004v034n05ABEH002696

M3 - Article

AN - SCOPUS:3843083857

VL - 34

SP - 393

EP - 398

JO - Quantum Electronics

JF - Quantum Electronics

SN - 1063-7818

IS - 5

ER -

ID: 86380274