Measured laser fusion gains reproduced by self-similar volume compression and volume ignition for NIF conditions

HEINRICH HORA; H. AZECHI; Y. KITAGAWA; K. MIMA; M. MURAKAMI; S. NAKAI; K. NISHIHARA; H. TAKABE; C. YAMANAKA; M. YAMANAKA; T. YAMANAKA

doi:10.1017/S0022377898007077

Abstract

The recent high core gains of 29% in laser fusion experiments at the LLE Rochester are evaluated and compared with related earlier measurements where surprisingly the self-similarity model for volume compression provides a common description. This is a proof that the isentropic conditions of stagnation-free compression were mostly fulfilled at the optimized experimental gains, in contrast to highly entropy-producing shock and central spark conditions. Some projections are given of how these results may be generalized to volume ignition for the parameters of the NIF (National Ignition Facility). The proof of stagnation-free volume compression for the best laser fusion gains indicates the advantages of volume ignition, which not only is ‘robust’ and simply follows the natural adiabatic compression, but also is much less sensitive to instabilities and mixing. However, its essential advantage is that it is free from symmetry problems – in contrast to spark ignition, with its spherical detonation front.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Stygar, W. A. Olson, R. E. Spielman, R. B. and Leeper, R. J. 2001. Analytic models of high-temperature hohlraums. Physical Review E, Vol. 64, Issue. 2,

OSMAN, F. CANG, YU HORA, H. CAO, LI-HUA LIU, HONG HE, XIANTU BADZIAK, J. PARYS, A.B. WOLOWSKI, J. WORYNA, E. JUNGWIRTH, K. KRÁLIKOVA, B. KRÁSA, J. LÁSKA, L. PFEIFER, M. ROHLENA, K. SKÁLA, J. and ULLSCHMIED, J. 2004. Skin depth plasma front interaction mechanism with prepulse suppression to avoid relativistic self-focusing for high-gain laser fusion. Laser and Particle Beams, Vol. 22, Issue. 1, p. 83.

HORA, HEINRICH 2004. Developments in inertial fusion energy and beam fusion at magnetic confinement. Laser and Particle Beams, Vol. 22, Issue. 4, p. 439.

Hora, Heinrich Yu, Cang Xiantu, He Jie, Zhang Osman, F Badziak, J Boody, F P Gammino, S Höpfl, R Jungwirth, K Kralikova, B Kraska, J Laska, L Hong, Liu Miley, G H Parys, P Hansheng, Peng Pfeifer, M Rohlena, K Skala, J Skladanowski, Z Torrisi, L Ullschmied, J Wolowski, J and Weiyan, Zhang 2004. Generation of Nonlinear Force Driven Blocks from Skin Layer Interaction of Petawatt-Picosecond Laser Pulses for ICF. Plasma Science and Technology, Vol. 6, Issue. 1, p. 2172.

HORA, HEINRICH 2005. Difference between relativistic petawatt-picosecond laser-plasma interaction and subrelativistic plasma-block generation. Laser and Particle Beams, Vol. 23, Issue. 4, p. 441.

HORA, H. BADZIAK, J. GLOWACZ, S. JABLONSKI, S. SKLADANOWSKI, Z. OSMAN, F. CANG, YU ZHANG, JIE MILEY, G.H. PENG, HANSHENG HE, XIANTU ZHANG, WEIYAN ROHLENA, K. ULLSCHMIED, J. and JUNGWIRTH, K. 2005. Fusion energy from plasma block ignition. Laser and Particle Beams, Vol. 23, Issue. 4, p. 423.

MILEY, GEORGE H. HORA, H. OSMAN, F. EVANS, P. and TOUPS, P. 2005. Single event laser fusion using ns-MJ laser pulses. Laser and Particle Beams, Vol. 23, Issue. 4, p. 453.

Amendt, Peter A. Robey, Harry F. Park, H.-S. Tipton, R. E. Turner, R. E. Milovich, J. L. Bono, M. Hibbard, R. Louis, H. Wallace, R. and Glebov, V. Yu. 2005. Hohlraum-Driven Ignitionlike Double-Shell Implosions on the Omega Laser Facility. Physical Review Letters, Vol. 94, Issue. 6,

HORA, HEINRICH 2006. Smoothing and stochastic pulsation at high power laser-plasma interaction. Laser and Particle Beams, Vol. 24, Issue. 3, p. 455.

Zhao, Zongqing Chen, Jiabin Ding, Yongkun Chen, Ming and Pu, Yikang 2006. Exploration of the yield-ratio method at Shenguang II laser facility. Review of Scientific Instruments, Vol. 77, Issue. 7,

HORA, HEINRICH 2007. New aspects for fusion energy using inertial confinement. Laser and Particle Beams, Vol. 25, Issue. 1, p. 37.

Hora, H. Badziak, J. Read, M. N. Li, Yu-Tong Liang, Tian-Jiao Cang, Yu Liu, Hong Sheng, Zheng-Ming Zhang, Jie Osman, F. Miley, G. H. Zhang, Weiyan He, Xiantu Peng, Hansheng Glowacz, S. Jablonski, S. Wolowski, J. Skladanowski, Z. Jungwirth, K. Rohlena, K. and Ullschmied, J. 2007. Fast ignition by laser driven particle beams of very high intensity. Physics of Plasmas, Vol. 14, Issue. 7,

Khoda-Bakhsh, R. Soltanian, A. and Amniat-Talab, M. 2007. Volume ignition of 3He pellets. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 581, Issue. 3, p. 839.

Gupta, D. N. and Suk, H. 2007. Energetic electron beam generation by laser-plasma interaction and its application for neutron production. Journal of Applied Physics, Vol. 101, Issue. 11,

Hora, H. Malekynia, B. Ghoranneviss, M. Miley, G. H. and He, X. 2008. Twenty times lower ignition threshold for laser driven fusion using collective effects and the inhibition factor. Applied Physics Letters, Vol. 93, Issue. 1,

Hora, H Miley, G H Osman, F Evans, P and Toups, P 2008. Single-shot laser driven inertial confinement fusion based on nanosecond and picosecond laser pulses. Journal of Physics: Conference Series, Vol. 112, Issue. 2, p. 022025.

Ghoranneviss, M. Malekynia, B. Hora, H. Miley, G.H. and He, X. 2008. Inhibition factor reduces fast ignition threshold for laser fusion using nonlinear force driven block acceleration. Laser and Particle Beams, Vol. 26, Issue. 1, p. 105.

Hora, H. 2009. Laser fusion with nonlinear force driven plasma blocks: Thresholds and dielectric effects. Laser and Particle Beams, Vol. 27, Issue. 2, p. 207.

Miley, G. H. Hora, H. Malekynia, B. and Ghoranneviss, M. 2009. Reduction of Threshold for Laser Fusion Ignition by Nonlinear Force Driven Block Acceleration. Fusion Science and Technology, Vol. 56, Issue. 1, p. 384.

Malekynia, B. Ghoranneviss, M. Hora, H. and Miley, G. H. 2009. Thermal Transport Effect in Tokamaks and Block Ignition for Laser Fusion. Journal of Fusion Energy, Vol. 28, Issue. 1, p. 135.

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Measured laser fusion gains reproduced by self-similar volume compression and volume ignition for NIF conditions

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