Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity

L. Divol; A. Pak; L. F. Berzak Hopkins; S. Le Pape; N. B. Meezan; E. L. Dewald; D. D.M. Ho; S. F. Khan; A. J. Mackinnon; J. S. Ross; D. P. Turnbull; C. Weber; P. M. Celliers; M. Millot; L. R. Benedetti; J. E. Field; N. Izumi; G. A. Kyrala; T. Ma; S. R. Nagel; J. R. Rygg; D. Edgell; A. G. Macphee; C. Goyon; M. Hohenberger; B. J. MacGowan; P. Michel; D. Strozzi; W. Cassata; D. Casey; D. N. Fittinghoff; N. Gharibyan; R. Hatarik; D. Sayre; P. Volegov; C. Yeamans; B. Bachmann; T. Döppner; J. Biener; J. Crippen; C. Choate; H. Huang; C. Kong; A. Nikroo; N. G. Rice; M. Stadermann; S. D. Bhandarkar; S. Haan; B. Kozioziemski; W. W. Hsing; O. L. Landen; J. D. Moody; R. P.J. Town; D. A. Callahan; O. A. Hurricane; M. J. Edwards

doi:10.1063/1.4982215

Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity

L. Divol
, A. Pak
, L. F. Berzak Hopkins
, S. Le Pape
, N. B. Meezan
, E. L. Dewald
, D. D.M. Ho
, S. F. Khan
, A. J. Mackinnon
, J. S. Ross
, D. P. Turnbull
, C. Weber
, P. M. Celliers
, M. Millot
, L. R. Benedetti
, J. E. Field
, N. Izumi
, G. A. Kyrala
, T. Ma
, S. R. Nagel

J. R. Rygg, D. Edgell, A. G. Macphee, C. Goyon, M. Hohenberger, B. J. MacGowan, P. Michel, D. Strozzi, W. Cassata, D. Casey, D. N. Fittinghoff, N. Gharibyan, R. Hatarik, D. Sayre, P. Volegov, C. Yeamans, B. Bachmann, T. Döppner, J. Biener, J. Crippen, C. Choate, H. Huang, C. Kong, A. Nikroo, N. G. Rice, M. Stadermann, S. D. Bhandarkar, S. Haan, B. Kozioziemski, W. W. Hsing, O. L. Landen, J. D. Moody, R. P.J. Town, D. A. Callahan, O. A. Hurricane, M. J. Edwards

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122 Scopus citations

Abstract

We report on the most recent and successful effort at controlling the trajectory and symmetry of a high density carbon implosion at the National Ignition Facility. We use a low gasfill (0.3 mg/cc He) bare depleted uranium hohlraum with around 1 MJ of laser energy to drive a 3-shock-ignition relevant implosion. We assess drive performance and we demonstrate symmetry control at convergence 1, 3-5, 12, and 27 to better than ±5 μm using a succession of experimental platforms. The symmetry control was maintained at a peak fuel velocity of 380 km/s. Overall, implosion symmetry measurements are consistent with the pole-equator symmetry of the X-ray drive on the capsule being better than 5% in the foot of the drive (when shocks are launched) and better than 1% during peak drive (main acceleration phase). This level of residual asymmetry should have little impact on implosion performance.

Original language	English (US)
Article number	056309
Journal	Physics of Plasmas
Volume	24
Issue number	5
DOIs	https://doi.org/10.1063/1.4982215
State	Published - May 1 2017
Externally published	Yes

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/1.4982215

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Divol, L., Pak, A., Berzak Hopkins, L. F., Le Pape, S., Meezan, N. B., Dewald, E. L., Ho, D. D. M., Khan, S. F., Mackinnon, A. J., Ross, J. S., Turnbull, D. P., Weber, C., Celliers, P. M., Millot, M., Benedetti, L. R., Field, J. E., Izumi, N., Kyrala, G. A., Ma, T., ... Edwards, M. J. (2017). Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity. Physics of Plasmas, 24(5), Article 056309. https://doi.org/10.1063/1.4982215

@article{a39c374f60a64db2bf93b6b5a8a8ac23,

title = "Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity",

abstract = "We report on the most recent and successful effort at controlling the trajectory and symmetry of a high density carbon implosion at the National Ignition Facility. We use a low gasfill (0.3 mg/cc He) bare depleted uranium hohlraum with around 1 MJ of laser energy to drive a 3-shock-ignition relevant implosion. We assess drive performance and we demonstrate symmetry control at convergence 1, 3-5, 12, and 27 to better than ±5 μm using a succession of experimental platforms. The symmetry control was maintained at a peak fuel velocity of 380 km/s. Overall, implosion symmetry measurements are consistent with the pole-equator symmetry of the X-ray drive on the capsule being better than 5\% in the foot of the drive (when shocks are launched) and better than 1\% during peak drive (main acceleration phase). This level of residual asymmetry should have little impact on implosion performance.",

author = "L. Divol and A. Pak and \{Berzak Hopkins\}, \{L. F.\} and \{Le Pape\}, S. and Meezan, \{N. B.\} and Dewald, \{E. L.\} and Ho, \{D. D.M.\} and Khan, \{S. F.\} and Mackinnon, \{A. J.\} and Ross, \{J. S.\} and Turnbull, \{D. P.\} and C. Weber and Celliers, \{P. M.\} and M. Millot and Benedetti, \{L. R.\} and Field, \{J. E.\} and N. Izumi and Kyrala, \{G. A.\} and T. Ma and Nagel, \{S. R.\} and Rygg, \{J. R.\} and D. Edgell and Macphee, \{A. G.\} and C. Goyon and M. Hohenberger and MacGowan, \{B. J.\} and P. Michel and D. Strozzi and W. Cassata and D. Casey and Fittinghoff, \{D. N.\} and N. Gharibyan and R. Hatarik and D. Sayre and P. Volegov and C. Yeamans and B. Bachmann and T. D{\"o}ppner and J. Biener and J. Crippen and C. Choate and H. Huang and C. Kong and A. Nikroo and Rice, \{N. G.\} and M. Stadermann and Bhandarkar, \{S. D.\} and S. Haan and B. Kozioziemski and Hsing, \{W. W.\} and Landen, \{O. L.\} and Moody, \{J. D.\} and Town, \{R. P.J.\} and Callahan, \{D. A.\} and Hurricane, \{O. A.\} and Edwards, \{M. J.\}",

note = "Publisher Copyright: {\textcopyright} 2017 Author(s).",

year = "2017",

month = may,

day = "1",

doi = "10.1063/1.4982215",

language = "English (US)",

volume = "24",

journal = "Physics of Plasmas",

issn = "1070-664X",

publisher = "American Institute of Physics",

number = "5",

}

Divol, L, Pak, A, Berzak Hopkins, LF, Le Pape, S, Meezan, NB, Dewald, EL, Ho, DDM, Khan, SF, Mackinnon, AJ, Ross, JS, Turnbull, DP, Weber, C, Celliers, PM, Millot, M, Benedetti, LR, Field, JE, Izumi, N, Kyrala, GA, Ma, T, Nagel, SR, Rygg, JR, Edgell, D, Macphee, AG, Goyon, C, Hohenberger, M, MacGowan, BJ, Michel, P, Strozzi, D, Cassata, W, Casey, D, Fittinghoff, DN, Gharibyan, N, Hatarik, R, Sayre, D, Volegov, P, Yeamans, C, Bachmann, B, Döppner, T, Biener, J, Crippen, J, Choate, C, Huang, H, Kong, C, Nikroo, A, Rice, NG, Stadermann, M, Bhandarkar, SD, Haan, S, Kozioziemski, B, Hsing, WW, Landen, OL, Moody, JD, Town, RPJ, Callahan, DA, Hurricane, OA & Edwards, MJ 2017, 'Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity', Physics of Plasmas, vol. 24, no. 5, 056309. https://doi.org/10.1063/1.4982215

TY - JOUR

T1 - Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity

AU - Divol, L.

AU - Pak, A.

AU - Berzak Hopkins, L. F.

AU - Le Pape, S.

AU - Meezan, N. B.

AU - Dewald, E. L.

AU - Ho, D. D.M.

AU - Khan, S. F.

AU - Mackinnon, A. J.

AU - Ross, J. S.

AU - Turnbull, D. P.

AU - Weber, C.

AU - Celliers, P. M.

AU - Millot, M.

AU - Benedetti, L. R.

AU - Field, J. E.

AU - Izumi, N.

AU - Kyrala, G. A.

AU - Ma, T.

AU - Nagel, S. R.

AU - Rygg, J. R.

AU - Edgell, D.

AU - Macphee, A. G.

AU - Goyon, C.

AU - Hohenberger, M.

AU - MacGowan, B. J.

AU - Michel, P.

AU - Strozzi, D.

AU - Cassata, W.

AU - Casey, D.

AU - Fittinghoff, D. N.

AU - Gharibyan, N.

AU - Hatarik, R.

AU - Sayre, D.

AU - Volegov, P.

AU - Yeamans, C.

AU - Bachmann, B.

AU - Döppner, T.

AU - Biener, J.

AU - Crippen, J.

AU - Choate, C.

AU - Huang, H.

AU - Kong, C.

AU - Nikroo, A.

AU - Rice, N. G.

AU - Stadermann, M.

AU - Bhandarkar, S. D.

AU - Haan, S.

AU - Kozioziemski, B.

AU - Hsing, W. W.

AU - Landen, O. L.

AU - Moody, J. D.

AU - Town, R. P.J.

AU - Callahan, D. A.

AU - Hurricane, O. A.

AU - Edwards, M. J.

PY - 2017/5/1

Y1 - 2017/5/1

N2 - We report on the most recent and successful effort at controlling the trajectory and symmetry of a high density carbon implosion at the National Ignition Facility. We use a low gasfill (0.3 mg/cc He) bare depleted uranium hohlraum with around 1 MJ of laser energy to drive a 3-shock-ignition relevant implosion. We assess drive performance and we demonstrate symmetry control at convergence 1, 3-5, 12, and 27 to better than ±5 μm using a succession of experimental platforms. The symmetry control was maintained at a peak fuel velocity of 380 km/s. Overall, implosion symmetry measurements are consistent with the pole-equator symmetry of the X-ray drive on the capsule being better than 5% in the foot of the drive (when shocks are launched) and better than 1% during peak drive (main acceleration phase). This level of residual asymmetry should have little impact on implosion performance.

AB - We report on the most recent and successful effort at controlling the trajectory and symmetry of a high density carbon implosion at the National Ignition Facility. We use a low gasfill (0.3 mg/cc He) bare depleted uranium hohlraum with around 1 MJ of laser energy to drive a 3-shock-ignition relevant implosion. We assess drive performance and we demonstrate symmetry control at convergence 1, 3-5, 12, and 27 to better than ±5 μm using a succession of experimental platforms. The symmetry control was maintained at a peak fuel velocity of 380 km/s. Overall, implosion symmetry measurements are consistent with the pole-equator symmetry of the X-ray drive on the capsule being better than 5% in the foot of the drive (when shocks are launched) and better than 1% during peak drive (main acceleration phase). This level of residual asymmetry should have little impact on implosion performance.

UR - https://www.scopus.com/pages/publications/85018273644

UR - https://www.scopus.com/pages/publications/85018273644#tab=citedBy

U2 - 10.1063/1.4982215

DO - 10.1063/1.4982215

M3 - Article

AN - SCOPUS:85018273644

SN - 1070-664X

VL - 24

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 5

M1 - 056309

ER -

Symmetry control of an indirectly driven high-density-carbon implosion at high convergence and high velocity

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