Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF

Heinrich Hora; Yu Cang; Xiantu He; Jie Zhang; Frederick Osman; Jan Badziak; Frederick P. Boody; Santo Gammino; R. HÃƒÂ¶pfl; Karel Jungwirth; BozÃŒÅ’ena KraÃŒÂlikovaÃŒÂ; J. Kraska; Leos Laska; Hong Liu; George H. Miley; Piotr Parys; Hansheng Peng; Miroslav Pfeifer; Karel Rohlena; Jiri Skala; Z. Skladanowski; Lorenzo Torrisi; Jiri Ullschmied; Jerzy Wolowski; Weiyan Zhang

doi:10.1088/1009-0630/6/1/010

Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF

Heinrich Hora, Yu Cang, Xiantu He, Jie Zhang, Frederick Osman, Jan Badziak, Frederick P. Boody, Santo Gammino, R. HÃƒÂ¶pfl, Karel Jungwirth, BozÃŒÅ’ena KraÃŒÂlikovaÃŒÂ, J. Kraska, Leos Laska, Hong Liu, George H. Miley, Piotr Parys, Hansheng Peng, Miroslav Pfeifer, Karel Rohlena, Jiri SkalaZ. Skladanowski, Lorenzo Torrisi, Jiri Ullschmied, Jerzy Wolowski, Weiyan Zhang

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Abstract

The discovery of the essential difference of maximum ion energy for TW-ps laser plasma interaction compared with the 100 ns laser pulses[l] led to the theory of a skin layer model [2] where the control of prepulses suppressed the usual relativistic self-focusing. The subsequent generation of two nonlinear force driven blocks has been demonstrated experimentally and in extensive numerical studies where one block moves against the laser light and the other lock into the irradiated target. These blocks of nearly solid state density DT plasma correspond to ion beam current densities [3] exceeding 10 10 A/cm2 where the ion velocity can be chosen up to highly relativistic values. Using the results of the expected ignition of DT fuel by light ion beams, a self-sustained fusion reaction front may be generated even into uncompressed solid DT fuel similar to the Nuckolls-Wood [4] scheme where 10 kJ laser pulses produce 100 MJ fusion energy. This new and simplified scheme of laser-ICF needs and optimisation of the involved parameters.

Original language	English
Pages (from-to)	2172-2178
Number of pages	7
Journal	Plasma Science & Technology
Volume	6
Issue number	1
DOIs	https://doi.org/10.1088/1009-0630/6/1/010
Publication status	Published - 2004

Keywords

controlled fusion
fusion reactors
laser fusion
laser pulses, ultrashort
laser-plasma interactions
nonlinear theories

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/1009-0630/6/1/010

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Hora, H., Cang, Y., He, X., Zhang, J., Osman, F., Badziak, J., Boody, F. P., Gammino, S., HÃƒÂ¶pfl, R., Jungwirth, K., KraÃŒÂlikovaÃŒÂ, BŒÅ., Kraska, J., Laska, L., Liu, H., Miley, G. H., Parys, P., Peng, H., Pfeifer, M., Rohlena, K., ... Zhang, W. (2004). Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF. Plasma Science & Technology, 6(1), 2172-2178. https://doi.org/10.1088/1009-0630/6/1/010

@article{97cd6fa2478a4e85a9b3613b1be7aa83,

title = "Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF",

abstract = "The discovery of the essential difference of maximum ion energy for TW-ps laser plasma interaction compared with the 100 ns laser pulses[l] led to the theory of a skin layer model [2] where the control of prepulses suppressed the usual relativistic self-focusing. The subsequent generation of two nonlinear force driven blocks has been demonstrated experimentally and in extensive numerical studies where one block moves against the laser light and the other lock into the irradiated target. These blocks of nearly solid state density DT plasma correspond to ion beam current densities [3] exceeding 10 10 A/cm2 where the ion velocity can be chosen up to highly relativistic values. Using the results of the expected ignition of DT fuel by light ion beams, a self-sustained fusion reaction front may be generated even into uncompressed solid DT fuel similar to the Nuckolls-Wood [4] scheme where 10 kJ laser pulses produce 100 MJ fusion energy. This new and simplified scheme of laser-ICF needs and optimisation of the involved parameters.",

keywords = "controlled fusion, fusion reactors, laser fusion, laser pulses, ultrashort, laser-plasma interactions, nonlinear theories",

author = "Heinrich Hora and Yu Cang and Xiantu He and Jie Zhang and Frederick Osman and Jan Badziak and Boody, {Frederick P.} and Santo Gammino and R. H{\~A}ƒ{\^A}¶pfl and Karel Jungwirth and Boz{\~A}{\OE}{\AA}{\textquoteright}ena Kra{\~A}{\OE}{\^A}likova{\~A}{\OE}{\^A} and J. Kraska and Leos Laska and Hong Liu and Miley, {George H.} and Piotr Parys and Hansheng Peng and Miroslav Pfeifer and Karel Rohlena and Jiri Skala and Z. Skladanowski and Lorenzo Torrisi and Jiri Ullschmied and Jerzy Wolowski and Weiyan Zhang",

year = "2004",

doi = "10.1088/1009-0630/6/1/010",

language = "English",

volume = "6",

pages = "2172--2178",

journal = "Plasma Science & Technology",

issn = "1009-0630",

publisher = "Chinese Academy of Sciences",

number = "1",

}

Hora, H, Cang, Y, He, X, Zhang, J, Osman, F, Badziak, J, Boody, FP, Gammino, S, HÃƒÂ¶pfl, R, Jungwirth, K, KraÃŒÂlikovaÃŒÂ, BŒÅ, Kraska, J, Laska, L, Liu, H, Miley, GH, Parys, P, Peng, H, Pfeifer, M, Rohlena, K, Skala, J, Skladanowski, Z, Torrisi, L, Ullschmied, J, Wolowski, J & Zhang, W 2004, 'Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF', Plasma Science & Technology, vol. 6, no. 1, pp. 2172-2178. https://doi.org/10.1088/1009-0630/6/1/010

TY - JOUR

T1 - Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF

AU - Hora, Heinrich

AU - Cang, Yu

AU - He, Xiantu

AU - Zhang, Jie

AU - Osman, Frederick

AU - Badziak, Jan

AU - Boody, Frederick P.

AU - Gammino, Santo

AU - HÃƒÂ¶pfl, R.

AU - Jungwirth, Karel

AU - KraÃŒÂlikovaÃŒÂ, BozÃŒÅ’ena

AU - Kraska, J.

AU - Laska, Leos

AU - Liu, Hong

AU - Miley, George H.

AU - Parys, Piotr

AU - Peng, Hansheng

AU - Pfeifer, Miroslav

AU - Rohlena, Karel

AU - Skala, Jiri

AU - Skladanowski, Z.

AU - Torrisi, Lorenzo

AU - Ullschmied, Jiri

AU - Wolowski, Jerzy

AU - Zhang, Weiyan

PY - 2004

Y1 - 2004

N2 - The discovery of the essential difference of maximum ion energy for TW-ps laser plasma interaction compared with the 100 ns laser pulses[l] led to the theory of a skin layer model [2] where the control of prepulses suppressed the usual relativistic self-focusing. The subsequent generation of two nonlinear force driven blocks has been demonstrated experimentally and in extensive numerical studies where one block moves against the laser light and the other lock into the irradiated target. These blocks of nearly solid state density DT plasma correspond to ion beam current densities [3] exceeding 10 10 A/cm2 where the ion velocity can be chosen up to highly relativistic values. Using the results of the expected ignition of DT fuel by light ion beams, a self-sustained fusion reaction front may be generated even into uncompressed solid DT fuel similar to the Nuckolls-Wood [4] scheme where 10 kJ laser pulses produce 100 MJ fusion energy. This new and simplified scheme of laser-ICF needs and optimisation of the involved parameters.

AB - The discovery of the essential difference of maximum ion energy for TW-ps laser plasma interaction compared with the 100 ns laser pulses[l] led to the theory of a skin layer model [2] where the control of prepulses suppressed the usual relativistic self-focusing. The subsequent generation of two nonlinear force driven blocks has been demonstrated experimentally and in extensive numerical studies where one block moves against the laser light and the other lock into the irradiated target. These blocks of nearly solid state density DT plasma correspond to ion beam current densities [3] exceeding 10 10 A/cm2 where the ion velocity can be chosen up to highly relativistic values. Using the results of the expected ignition of DT fuel by light ion beams, a self-sustained fusion reaction front may be generated even into uncompressed solid DT fuel similar to the Nuckolls-Wood [4] scheme where 10 kJ laser pulses produce 100 MJ fusion energy. This new and simplified scheme of laser-ICF needs and optimisation of the involved parameters.

KW - controlled fusion

KW - fusion reactors

KW - laser fusion

KW - laser pulses, ultrashort

KW - laser-plasma interactions

KW - nonlinear theories

UR - http://handle.uws.edu.au:8081/1959.7/36569

U2 - 10.1088/1009-0630/6/1/010

DO - 10.1088/1009-0630/6/1/010

M3 - Article

SN - 1009-0630

VL - 6

SP - 2172

EP - 2178

JO - Plasma Science & Technology

JF - Plasma Science & Technology

IS - 1

ER -

Generation of nonlinear force driven blocks from skin layer interaction of Petawatt-Picosecond laser pulses for ICF

Abstract

Keywords

UN SDGs

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