Symmetry tuning via controlled crossed-beam energy transfer on the National Ignition Facility

Michel P.; Glenzer S.H.; Divol L.; Bradley D.K.; Callahan D.; Dixit S.; Glenn S.; Hinkel D.; Kirkwood R.K.; Kline J.L.; Kruer W.L.; Kyrala G.A.; Le Pape S.; Meezan N.B.; Town R.; Widmann K.; Williams E.A.; MacGowan B.J.; Lindl J.; Suter L.J.

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Symmetry tuning via controlled crossed-beam energy transfer on the National Ignition Facility

机译：通过国家点火设施上受控的交叉光束能量传输进行对称性调整

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The Hohlraum energetics experimental campaign started in the summer of 2009 on the National Ignition Facility (NIF) [E. I. Moses, Phys. Plasmas 16, 041006 (2009)]. These experiments showed good coupling of the laser energy into the targets [N. Meezan, Phys. Plasmas 17, 056304 (2010)]. They have also demonstrated controlled crossed-beam energy transfer between laser beams as an efficient and robust tool to tune the implosion symmetry of ignition capsules, as predicted by earlier calculations [P. Michel, Phys. Rev. Lett. 102, 025004 (2009)]. A new linear model calculating crossed-beam energy transfer between cones of beams on the NIF has been developed. The model has been applied to the subscale Hohlraum targets shot during the National Ignition Campaign in 2009. A good agreement can be found between the calculations and the experiments when the impaired propagation of the laser beams due to backscatter is accounted for.

机译：Hohlraum能量学实验活动于2009年夏季在国家点火装置（NIF）上启动[E. I.摩西，物理学。 Plasmas 16，041006（2009）]。这些实验显示出激光能量与靶标的良好耦合[N. Meezan，物理学。 Plasmas 17，056304（2010）]。他们还证明了受控光束在横梁之间的能量转移是一种有效而强大的工具，可以调节点火胶囊的内爆对称性，如先前的计算所预测的[P.米歇尔·物理学牧师102，025004（2009）]。已经开发了一种新的线性模型，用于计算NIF上束锥之间的交叉束能量转移。该模型已应用于2009年“全国点火运动”期间射击的Hohlraum准目标。当考虑到由于反向散射而导致的激光束传播受损时，在计算和实验之间可以找到很好的一致性。

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《Physics of plasmas》 |2010年第2期|共6页
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Michel P.; Glenzer S.H.; Divol L.; Bradley D.K.; Callahan D.; Dixit S.; Glenn S.; Hinkel D.; Kirkwood R.K.; Kline J.L.; Kruer W.L.; Kyrala G.A.; Le Pape S.; Meezan N.B.; Town R.; Widmann K.; Williams E.A.; MacGowan B.J.; Lindl J.; Suter L.J.;
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1. Symmetry tuning via controlled crossed-beam energy transfer on the National Ignition Facility [J] . Michel P., Glenzer S.H., Divol L., Physics of plasmas . 2010,第5aPta2期

机译：通过国家点火设施上受控的交叉光束能量传输进行对称性调整
2. Tuning The Implosion Symmetry Of Icf Targets Via Controlled Crossed-beam Energy Transfer [J] . P. Michel, L. Divol, E. A. Williams, Physical review letters . 2009,第2期

机译：通过可控的交叉束能量转移调整Icf目标的内爆对称性
3. Symmetry tuning of a near one-dimensional 2-shock platform for code validation at the National Ignition Facility [J] . Khan S. F., MacLaren S. A., Salmonson J. D., Physics of plasmas . 2016,第4期

机译：在国家点火设施上对用于代码验证的近一维2冲击平台进行对称调整
4. Implosion symmetry and /spl rho/R measurements on the National Ignition Facility from nascent 27/spl rarr/31 MeV tertiary protons [C] . Petrasso, R.D., Li, . 1996

机译：新生的27 / spl rarr / 31 MeV第三质子在国家点火装置上的内爆对称性和/ spl rho / R测量
5. Investigation of gamma-ray time shifts caused by capsule areal density variations in inertial confinement fusion experiments at the national ignition facility and the omega facility. [D] . Grafil, Elliot M. 2015

机译：在国家点火设施和欧米茄设施进行的惯性约束聚变实验中，对由胶囊面密度变化引起的伽马射线时移进行了研究。
6. Rayleigh–Taylor instabilities in high-energy density settings on the National Ignition Facility [O] . Bruce A. Remington, Hye-Sook Park, Daniel T. Casey, 2019

机译：国家点火设施上高能量密度设置中的瑞利-泰勒不稳定性
7. Symmetry tuning with megajoule laser pulses at the National Ignition Facility [O] . J.L. Kline, N.B. Meezan, D.A. Callahan, 2013

机译：对称调整在国家点火设施的Megajoule激光脉冲

Symmetry tuning via controlled crossed-beam energy transfer on the National Ignition Facility

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