Mixing in ICF implosions on the National Ignition Facility caused by the fill-tube

被引:57
|
作者
Weber, C. R. [1 ]
Clark, D. S. [1 ]
Pak, A. [1 ]
Alfonso, N. [2 ]
Bachmann, B. [1 ]
Hopkins, L. F. Berzak [1 ]
Bunn, T. [1 ]
Crippen, J. [2 ]
Divol, L. [1 ]
Dittrich, T. [1 ]
Kritcher, A. L. [1 ]
Landen, O. L. [1 ]
Le Pape, S. [1 ,3 ]
MacPhee, A. G. [1 ]
Marley, E. [1 ]
Masse, L. P. [1 ]
Milovich, J. L. [1 ]
Nikroo, A. [1 ]
Patel, P. K. [1 ]
Pickworth, L. A. [1 ]
Rice, N. [2 ]
Smalyuk, V. A. [1 ]
Stadermann, M. [1 ]
机构
[1] Lawrence Livermore Natl Lab, Livermore, CA 94550 USA
[2] Gen Atom, San Diego, CA 92168 USA
[3] Sorbonne Univ, UPMC Univ Paris 06, Univ Paris Saclay, LULI,CNRS,Ecole Polytech,CEA, F-91128 Palaiseau, France
来源
PHYSICS OF PLASMAS | 2020年 / 27卷 / 03期
关键词
FABRICATION; TARGETS;
D O I
10.1063/1.5125599
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
The micrometer-scale tube that fills capsules with thermonuclear fuel in inertial confinement fusion experiments at the National Ignition Facility is also one of the implosion's main degradation sources. It seeds a perturbation that injects the ablator material into the center, radiating away some of the hot-spot energy. This paper discusses how the perturbation arises in experiments using high-density carbon ablators and how the ablator mix interacts once it enters the hot-spot. Both modeling and experiments show an in-flight areal-density perturbation and localized x-ray emission at stagnation from the fill-tube. Simulations suggest that the fill-tube is degrading an otherwise 1D implosion by similar to 2x, but when other degradation sources are present, the yield reduction is closer to 20%. Characteristics of the fill-tube assembly, such as the through-hole size and the glue mass, alter the dynamics and magnitude of the degradation. These aspects point the way toward improvements in the design, some of which (smaller diameter fill-tube) have already shown improvements. Published under license by AIP Publishing.
引用
收藏
页数:15
相关论文
共 50 条
  • [31] Radiative shocks produced from spherical cryogenic implosions at the National Ignition Facility
    Pak, A.
    Divol, L.
    Gregori, G.
    Weber, S.
    Atherton, J.
    Bennedetti, R.
    Bradley, D. K.
    Callahan, D.
    Casey, D. T.
    Dewald, E.
    Doeppner, T.
    Edwards, M. J.
    Frenje, J. A.
    Glenn, S.
    Grim, G. P.
    Hicks, D.
    Hsing, W. W.
    Izumi, N.
    Jones, O. S.
    Johnson, M. G.
    Khan, S. F.
    Kilkenny, J. D.
    Kline, J. L.
    Kyrala, G. A.
    Lindl, J.
    Landen, O. L.
    Le Pape, S.
    Ma, T.
    MacPhee, A.
    MacGowan, B. J.
    MacKinnon, A. J.
    Masse, L.
    Meezan, N. B.
    Moody, J. D.
    Olson, R. E.
    Ralph, J. E.
    Robey, H. F.
    Park, H. -S.
    Remington, B. A.
    Ross, J. S.
    Tommasini, R.
    Town, R. P. J.
    Smalyuk, V.
    Glenzer, S. H.
    Moses, E. I.
    PHYSICS OF PLASMAS, 2013, 20 (05)
  • [32] The I-Raum: A new shaped hohlraum for improved inner beam propagation in indirectly-driven ICF implosions on the National Ignition Facility
    Robey, H. F.
    Hopkins, L. Berzak
    Milovich, J. L.
    Meezan, N. B.
    PHYSICS OF PLASMAS, 2018, 25 (01)
  • [33] ROBUST CAPSULE AND FILL TUBE ASSEMBLIES FOR THE NATIONAL IGNITION CAMPAIGN
    Johal, Z. Z.
    Crippen, J. W.
    Forsman, A. C.
    Lundgren, E. H.
    Moreno, K. A.
    Nikroo, A.
    FUSION SCIENCE AND TECHNOLOGY, 2009, 55 (03) : 331 - 336
  • [34] Metrics for long wavelength asymmetries in inertial confinement fusion implosions on the National Ignition Facility
    Kritcher, A. L.
    Town, R.
    Bradley, D.
    Clark, D.
    Spears, B.
    Jones, O.
    Haan, S.
    Springer, P. T.
    Lindl, J.
    Scott, R. H. H.
    Callahan, D.
    Edwards, M. J.
    Landen, O. L.
    PHYSICS OF PLASMAS, 2014, 21 (04)
  • [35] Three-dimensional simulations of National Ignition Facility implosions: Insight into experimental observables
    Spears, Brian K.
    Munro, David H.
    Sepke, Scott
    Caggiano, Joseph
    Clark, Daniel
    Hatarik, Robert
    Kritcher, Andrea
    Sayre, Daniel
    Yeamans, Charles
    Knauer, James
    Hilsabeck, Terry
    Kilkenny, Joe
    PHYSICS OF PLASMAS, 2015, 22 (05)
  • [36] First graded metal pushered single shell capsule implosions on the National Ignition Facility
    Dewald, E. L.
    MacLaren, S. A.
    Martinez, D. A.
    Pino, J. E.
    Tipton, R. E.
    Ho, D. D-M
    Young, C. V.
    Horwood, C.
    Khan, S. F.
    Hartouni, E. P.
    Rubery, M. S.
    Millot, M.
    Vazsonyi, A. R.
    Vonhof, S.
    Mellos, G.
    Johnson, S.
    Smalyuk, V. A.
    Graziani, F.
    Monzon, E. R.
    Xu, H. W.
    Huang, H.
    Bae, J.
    Kong, C. W.
    Rice, N.
    Wang, Y. M.
    Volegov, P.
    Freeman, M. S.
    Wilde, C.
    PHYSICS OF PLASMAS, 2022, 29 (05)
  • [37] Mode 1 drive asymmetry in inertial confinement fusion implosions on the National Ignition Facility
    Spears, Brian K.
    Edwards, M. J.
    Hatchett, S.
    Kilkenny, J.
    Knauer, J.
    Kritcher, A.
    Lindl, J.
    Munro, D.
    Patel, P.
    Robey, H. F.
    Town, R. P. J.
    PHYSICS OF PLASMAS, 2014, 21 (04)
  • [38] Development of Improved Radiation Drive Environment for High Foot Implosions at the National Ignition Facility
    Hinkel, D. E.
    Hopkins, L. F. Berzak
    Ma, T.
    Ralph, J. E.
    Albert, F.
    Benedetti, L. R.
    Celliers, P. M.
    Doppner, T.
    Goyon, C. S.
    Izumi, N.
    Jarrott, L. C.
    Khan, S. F.
    Kline, J. L.
    Kritcher, A. L.
    Kyrala, G. A.
    Nagel, S. R.
    Pak, A. E.
    Patel, P.
    Rosen, M. D.
    Rygg, J. R.
    Schneider, M. B.
    Turnbull, D. P.
    Yeamans, C. B.
    Callahan, D. A.
    Hurricane, O. A.
    PHYSICAL REVIEW LETTERS, 2016, 117 (22)
  • [39] Mitigating the impact of hohlraum asymmetries in National Ignition Facility implosions using capsule shims
    Clark, D. S.
    Weber, C. R.
    Smalyuk, V. A.
    Robey, H. F.
    Kritcher, A. L.
    Milovich, J. L.
    Salmonson, J. D.
    PHYSICS OF PLASMAS, 2016, 23 (07)
  • [40] Thin Shell, High Velocity Inertial Confinement Fusion Implosions on the National Ignition Facility
    Ma, T.
    Hurricane, O. A.
    Callahan, D. A.
    Barrios, M. A.
    Casey, D. T.
    Dewald, E. L.
    Dittrich, T. R.
    Doeppner, T.
    Haan, S. W.
    Hinkel, D. E.
    Hopkins, L. F. Berzak
    Le Pape, S.
    MacPhee, A. G.
    Pak, A.
    Park, H. -S.
    Patel, P. K.
    Remington, B. A.
    Robey, H. F.
    Salmonson, J. D.
    Springer, P. T.
    Tommasini, R.
    Benedetti, L. R.
    Bionta, R.
    Bond, E.
    Bradley, D. K.
    Caggiano, J.
    Celliers, P.
    Cerjan, C. J.
    Church, J. A.
    Dixit, S.
    Dylla-Spears, R.
    Edgell, D.
    Edwards, M. J.
    Field, J.
    Fittinghoff, D. N.
    Frenje, J. A.
    Johnson, M. Gatu
    Grim, G.
    Guler, N.
    Hatarik, R.
    Herrmann, H. W.
    Hsing, W. W.
    Izumi, N.
    Jones, O. S.
    Khan, S. F.
    Kilkenny, J. D.
    Knauer, J.
    Kohut, T.
    Kozioziemski, B.
    Kritcher, A.
    PHYSICAL REVIEW LETTERS, 2015, 114 (14)
12345