Comparison between jet collision and shell impact concepts for fast ignition

P. VELARDE; F. OGANDO; S. ELIEZER; J.M. MARTÍNEZ-VAL; J.M. PERLADO; M. MURAKAMI

doi:10.1017/S0263034605050093

Abstract

Recently a new fast ignitor concept has been proposed by Velarde et al. (2003) that uses only one energy drive. In this concept, the ignition is induced by the collision of high velocity matter accelerated inside a conical guide. The first model used a jet produced by illuminating a conical shape with a laser or X-rays. On the other hand, in the shell impact concept, the compressed deuterium-tritium fuel is ignited by a separately imploded shell traveling in a guiding cone. In this article, we will study the first design, jet driven concept that have been developed during this year. We use for this work the Arwen code (Ogando & Velarde, 2001; Rendleman et al., 2000), with two-dimensional (2D) multi-group radiation transport. The main parameter is to analyze the specific power transmitted to the target during the collision. Problems with the designs are the guide integrity during the collapse, the radiation preheating, and the average efficiency of the process, etc. which we will address as well.

References

REFERENCES

Alcouffe, R., Baker, R.S., Brinkley, F.W., Marr, D.R., O'Dell, R.D. & Walters, W.F. (1995). DANTSYS: A diffusion accelerated neutral particle transport code system, Los Alamos Report LA-12969-M.CrossRef Google Scholar

Birkhoff, G., MacDougall, D.P. et al. (1948). Explosives with lined cavities. J. Appl. Phys. 19, 563–582.CrossRef Google Scholar

Chou, P.C., Carleone, J. & Karpp, R.R. (1976). Criteria for jet formation from impinging shells and plates. J. Appl. Phys. 47, 2975–2981.CrossRef Google Scholar

Martínez-Val, J.M., Eliezer, S., Piera, M. & Velarde, P. (1997). Jet-ignited indirect drive inertial fusion targets. AIP Conf. Proc. 406, 208.CrossRef Google Scholar

Mìnguez, E., Serrano, J.F. & Gamez, M.L. (1988). Laser Part. Beams 6, 265–275.Google Scholar

More, R.M., Warren, K.H., Young, D.A. & Zimmerman, G.B. (1988). A new quotidian equation ofstate (QEOS) for hot dense matter. Phys. Fluids 31, 3059–3078.Google Scholar

Ogando, F. & Velarde, P. (2001). Development of a radiation transport fluid dynamic code underAMR scheme. JQSRT 71, 541.CrossRef Google Scholar

Rendleman, C., Beckner, V.E., Lijewski, M., Crutchfield, W.Y. & Bell, J.B. (2000). Parallelization of structured, hierarchical adaptive mesh refinement algorithms. Comp. Vis. Science 3.Google Scholar

Velarde, P., Martìnez-Val, J.M., Eliezer, S., Piera, M., Guillen, J., Cobo, M.D., Ogando, F., Crisol, A., González, L., Prieto, J. & Velarde, G. (1997). Hypervelocity jets from conical hollow charges. AIP Conf. Proc. 406, 182.CrossRef Google Scholar

Velarde, P., Ogando, F., Eliezer, S. & Saule, M. (2003). Target ignition by jet interaction, Proc. of 3rd IFSA, pp. 88–91, Santa Barbara (USA).Google Scholar

Walsh, J.M., Sireffler, R.G. & Willig, F.J. (1953). Limiting conditions for jet formation in high velocity collisions. J. Appl. Phys. 24, 349–359.CrossRef Google Scholar

Zababakhin, E. & Zababakhin, I. (1990). Unlimited cumulation phenomena. USSR Academy of Sciences, General Physics and Astronomy Department. Nauka Publishers.Google Scholar

Crossref Citations

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

BRET, ANTOINE and DEUTSCH, CLAUDE 2006. Density gradient effects on beam plasma linear instabilities for fast ignition scenario. Laser and Particle Beams, Vol. 24, Issue. 2, p. 269.

Eliezer, S. Murakami, M. and Martinez Val, J.M. 2007. Equation of state and optimum compression in inertial fusion energy. Laser and Particle Beams, Vol. 25, Issue. 4, p. 585.

Pisarczyk, T Kasperczuk, A Krousky, E. Masek, K Miklaszewski, R Nicolai, Ph Pfeifer, M Pisarczyk, P Rohlena, K Stenc, K Skala, J Tikhonchuk, V and Ullschmied, J 2007. The PALS iodine laser-driven jets. Plasma Physics and Controlled Fusion, Vol. 49, Issue. 12B, p. B611.

Kasperczuk, A. Pisarczyk, T. Kalal, M. Martinkova, M. Ullschmied, J. Krousky, E. Masek, K. Pfeifer, M. Rohlena, K. Skala, J. and Pisarczyk, P. 2008. PALS laser energy transfer into solid targets and its dependence on the lens focal point position with respect to the target surface. Laser and Particle Beams, Vol. 26, Issue. 2, p. 189.

Deutsch, C Bret, A Firpo, M-C Gremillet, L Lefebvre, E and Lifschitz, A 2008. Onset of coherent electromagnetic structures in the REB–DT fuel interaction of fast ignition interest. Physica Scripta, Vol. T131, Issue. , p. 014036.

Kasperczuk, A. Pisarczyk, T. Kalal, M. Ullschmied, J. Krousky, E. Masek, K. Pfeifer, M. Rohlena, K. Skala, J. and Pisarczyk, P. 2009. Influence of target material on structure of the plasma outflow produced by a partly defocused laser beam. Applied Physics Letters, Vol. 94, Issue. 8,

Kasperczuk, A. Pisarczyk, T. Demchenko, N.N. Gus'kov, S.Yu. Kalal, M. Ullschmied, J. Krousky, E. Masek, K. Pfeifer, M. Rohlena, K. Skala, J. and Pisarczyk, P. 2009. Experimental and theoretical investigations of mechanisms responsible for plasma jets formation at PALS. Laser and Particle Beams, Vol. 27, Issue. 3, p. 415.

González, Matthias García-Fernández, Carlos and Velarde, Pedro 2009. 2D numerical comparison between Sn and M1 radiation transport methods. Annals of Nuclear Energy, Vol. 36, Issue. 7, p. 886.

Azechi, H. Sakaiya, T. Watari, T. Karasik, M. Saito, H. Ohtani, K. Takeda, K. Hosoda, H. Shiraga, H. Nakai, M. Shigemori, K. Fujioka, S. Murakami, M. Nagatomo, H. Johzaki, T. Gardner, J. Colombant, D. G. Bates, J. W. Velikovich, A. L. Aglitskiy, Y. Weaver, J. Obenschain, S. Eliezer, S. Kodama, R. Norimatsu, T. Fujita, H. Mima, K. and Kan, H. 2009. Experimental Evidence of Impact Ignition: 100-Fold Increase of Neutron Yield by Impactor Collision. Physical Review Letters, Vol. 102, Issue. 23,

Kasperczuk, A. Pisarczyk, T. Badziak, J. Borodziuk, S. Chodukowski, T. Parys, P. Ullschmied, J. Krousky, E. Masek, K. Pfeifer, M. Rohlena, K. Skala, J. and Pisarczyk, P. 2010. Interaction of two plasma jets produced successively from Cu target. Laser and Particle Beams, Vol. 28, Issue. 3, p. 497.

Oliva, Eduardo Zeitoun, Philippe Velarde, Pedro Fajardo, Marta Cassou, Kevin Ros, David Sebban, Stephan Portillo, David and le Pape, Sebastien 2010. Hydrodynamic study of plasma amplifiers for soft-x-ray lasers: A transition in hydrodynamic behavior for plasma columns with widths ranging from20 μmto 2 mm. Physical Review E, Vol. 82, Issue. 5,

Kasperczuk, A. Pisarczyk, T. Badziak, J. Borodziuk, S. Chodukowski, T. Gus’kov, S. Yu. Demchenko, N. N. Ullschmied, J. Krousky, E. Masek, K. Pfeifer, M. Rohlena, K. Skala, J. and Pisarczyk, P. 2010. Influence of low atomic number plasma component on the formation of laser-produced plasma jets. Physics of Plasmas, Vol. 17, Issue. 11,

Winterberg, F. 2011. Generation of Ultrafast Jets Through the Implosion of a Nested Conical Wire Array. Journal of Fusion Energy, Vol. 30, Issue. 4, p. 283.

Kasperczuk, A Pisarczyk, T Badziak, J Borodziuk, S Chodukowski, T Gus'kov, S Yu Demchenko, N N Klir, D Kravarik, J Kubes, P Rezac, K Ullschmied, J Krousky, E Masek, K Pfeifer, M Rohlena, K Skala, J and Pisarczyk, P 2011. Interaction of a laser-produced copper plasma jet with ambient plastic plasma. Plasma Physics and Controlled Fusion, Vol. 53, Issue. 9, p. 095003.

Eliezer, Shalom and Martinez Val, Jose Maria 2011. The comeback of shock waves in inertial fusion energy. Laser and Particle Beams, Vol. 29, Issue. 2, p. 175.

Eliezer, Shalom 2012. Relativistic acceleration of micro-foils with prospects for fast ignition. Laser and Particle Beams, Vol. 30, Issue. 2, p. 225.

Kasperczuk, A. Pisarczyk, T. Chodukowski, T. Kalinowska, Z. Parys, P. Renner, O. Gus'kov, S. Yu. Demchenko, N. N. Ullschmied, J. Krousky, E. Pfeifer, M. Rohlena, K. and Skala, J. 2012. Laser-produced aluminum plasma expansion inside a plastic plasma envelope. Physics of Plasmas, Vol. 19, Issue. 9,

Kmetík, V. Limpouch, J. Liska, R. and Váchal, P. 2012. Modeling of annular-laser-beam-driven plasma jets from massive planar targets. Laser and Particle Beams, Vol. 30, Issue. 3, p. 445.

Mahdavi, M. and Khodadadi Azadboni, F. 2014. The effect of density gradient on the growth rate of relativistic Weibel instability. Physics of Plasmas, Vol. 21, Issue. 2, p. 022707.

Murakami, M. Nagatomo, H. Johzaki, T. Sakaiya, T. Velikovich, A. Karasik, M. Gus'kov, S. and Zmitrenko, N. 2014. Impact ignition as a track to laser fusion. Nuclear Fusion, Vol. 54, Issue. 5, p. 054007.

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Comparison between jet collision and shell impact concepts for fast ignition

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

Article contents

Comparison between jet collision and shell impact concepts for fast ignition

Abstract

Keywords

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REFERENCES

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