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Ultrafast ignition with relativistic shock waves induced by high power lasers

Ultrafast ignition with relativistic shock waves induced by high power lasers
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摘要 In this paper we consider laser intensities greater than 1016 W cm-2where the ablation pressure is negligible in comparison with the radiation pressure.The radiation pressure is caused by the ponderomotive force acting mainly on the electrons that are separated from the ions to create a double layer(DL).This DL is accelerated into the target,like a piston that pushes the matter in such a way that a shock wave is created.Here we discuss two novel ideas.Firstly,the transition domain between the relativistic and non-relativistic laser-induced shock waves.Our solution is based on relativistic hydrodynamics also for the above transition domain.The relativistic shock wave parameters,such as compression,pressure,shock wave and particle flow velocities,sound velocity and rarefaction wave velocity in the compressed target,and temperature are calculated.Secondly,we would like to use this transition domain for shockwave-induced ultrafast ignition of a pre-compressed target.The laser parameters for these purposes are calculated and the main advantages of this scheme are described.If this scheme is successful a new source of energy in large quantities may become feasible. In this paper we consider laser intensities greater than 1016 W cm-2where the ablation pressure is negligible in comparison with the radiation pressure.The radiation pressure is caused by the ponderomotive force acting mainly on the electrons that are separated from the ions to create a double layer(DL).This DL is accelerated into the target,like a piston that pushes the matter in such a way that a shock wave is created.Here we discuss two novel ideas.Firstly,the transition domain between the relativistic and non-relativistic laser-induced shock waves.Our solution is based on relativistic hydrodynamics also for the above transition domain.The relativistic shock wave parameters,such as compression,pressure,shock wave and particle flow velocities,sound velocity and rarefaction wave velocity in the compressed target,and temperature are calculated.Secondly,we would like to use this transition domain for shockwave-induced ultrafast ignition of a pre-compressed target.The laser parameters for these purposes are calculated and the main advantages of this scheme are described.If this scheme is successful a new source of energy in large quantities may become feasible.
作者 Shalom Eliezer Noaz Nissim Shirly Vinikman Pinhasi Erez Raicher José Maria Martinez Val
机构地区 Nuclear Fusion Institute Applied Physics Division Hebrew University of Jerusalem
出处 《High Power Laser Science and Engineering》 SCIE CAS 2014年第3期62-71,共10页 高功率激光科学与工程(英文版)
关键词 RELATIVISTIC HYDRODYNAMICS shock WAVES laser plasma NUCLEAR FUSION fast IGNITION relativistic hydrodynamics shock waves laser plasma nuclear fusion fast ignition
分类号 TN248 [电子电信—物理电子学]
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参考文献4

  • 1Stephen E.Bodner,Andrew J.Schmitt,John D.Sethian.Laser requirements for a laser fusion energy power plant[J].High Power Laser Science and Engineering,2013,1(1):2-10. 被引量:4
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二级参考文献12

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High Power Laser Science and Engineering
2014年 第3期

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