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461 results on '"Meezan, N."'

1. The impact of low-mode symmetry on inertial fusion energy output in the burning plasma state

Author

Ralph, J. E., Ross, J. S., Zylstra, A. B., Kritcher, A. L., Robey, H. F., Young, C. V., Hurricane, O. A., Pak, A., Callahan, D. A., Baker, K. L., Casey, D. T., Döppner, T., Divol, L., Hohenberger, M., Pape, S. Le, Patel, P. K., Tommasini, R., Ali, S. J., Amendt, P. A., Atherton, L. J., Bachmann, B., Bailey, D., Benedetti, L. R., Berzak Hopkins, L., Betti, R., Bhandarkar, S. D., Biener, J., Bionta, R. M., Birge, N. W., Bond, E. J., Bradley, D. K., Braun, T., Briggs, T. M., Bruhn, M. W., Celliers, P. M., Chang, B., Chapman, T., Chen, H., Choate, C., Christopherson, A. R., Clark, D. S., Crippen, J. W., Dewald, E. L., Dittrich, T. R., Edwards, M. J., Farmer, W. A., Field, J. E., Fittinghoff, D., Frenje, J., Gaffney, J., Gatu Johnson, M., Glenzer, S. H., Grim, G. P., Haan, S., Hahn, K. D., Hall, G. N., Hammel, B. A., Harte, J., Hartouni, E., Heebner, J. E., Hernandez, V. J., Herrmann, H. W., Herrmann, M. C., Hinkel, D. E., Ho, D. D., Holder, J. P., Hsing, W. W., Huang, H., Humbird, K. D., Izumi, N., Jarrott, L. C., Jeet, J., Jones, O., Kerbel, G. D., Kerr, S. M., Khan, S. F., Kilkenny, J., Kim, Y., Geppert-Kleinrath, H., Geppert-Kleinrath, V., Kong, C., Koning, J. M., Kroll, J. J., Kruse, M. K. G., Kustowski, B., Landen, O. L., Langer, S., Larson, D., Lemos, N. C., Lindl, J. D., Ma, T., MacDonald, M. J., MacGowan, B. J., Mackinnon, A. J., MacLaren, S. A., MacPhee, A. G., Marinak, M. M., Mariscal, D. A., Marley, E. V., Masse, L., Meaney, K. D., Meezan, N. B., Michel, P. A., Millot, M., Milovich, J. L., Moody, J. D., Moore, A. S., Morton, J. W., Murphy, T. J., Newman, K., Di Nicola, J.-M. G., Nikroo, A., Nora, R., Patel, M. V., Pelz, L. J., Peterson, J. L., Ping, Y., Pollock, B. B., Ratledge, M., Rice, N. G., Rinderknecht, H. G., Rosen, M., Rubery, M. S., Salmonson, J. D., Sater, J., Schiaffino, S., Schlossberg, D. J., Schneider, M. B., Schroeder, C. R., Scott, H. A., Sepke, S. M., Sequoia, K., Sherlock, M. W., Shin, S., Smalyuk, V. A., Spears, B. K., Springer, P. T., Stadermann, M., Stoupin, S., Strozzi, D. J., Suter, L. J., Thomas, C. A., Town, R. P. J., Trosseille, C., Tubman, E. R., Volegov, P. L., Weber, C. R., Widmann, K., Wild, C., Wilde, C. H., Van Wonterghem, B. M., Woods, D. T., Woodworth, B. N., Yamaguchi, M., Yang, S. T., and Zimmerman, G. B.

Published
2024
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2. Experiments conducted in the burning plasma regime with inertial fusion implosions

Author

Ross, J. S., Ralph, J. E., Zylstra, A. B., Kritcher, A. L., Robey, H. F., Young, C. V., Hurricane, O. A., Callahan, D. A., Baker, K. L., Casey, D. T., Doeppner, T., Divol, L., Hohenberger, M., Pape, S. Le, Pak, A., Patel, P. K., Tommasini, R., Ali, S. J., Amendt, P. A., Atherton, L. J., Bachmann, B., Bailey, D., Benedetti, L. R., Hopkins, L. Berzak, Betti, R., Bhandarkar, S. D., Bionta, R. M., Birge, N. W., Bond, E. J., Bradley, D. K., Braun, T., Briggs, T. M., Bruhn, M. W., Celliers, P. M., Chang, B., Chapman, T., Chen, H., Choate, C., Christopherson, A. R., Clark, D. S., Crippen, J. W., Dewald, E. L., Dittrich, T. R., Edwards, M. J., Farmer, W. A., Field, J. E., Fittinghoff, D., Frenje, J., Gaffney, J., Johnson, M. Gatu, Glenzer, S. H., Grim, G. P., Haan, S., Hahn, K. D., Hall, G. N., Hammel, B. A., Harte, J., Hartouni, E., Heebner, J. E., Hernandez, V. J., Herrmann, H., Herrmann, M. C., Hinkel, D. E., Ho, D. D., Holder, J. P., Hsing, W. W., Huang, H., Humbird, K. D., Izumi, N., Jarrott, L. C., Jeet, J., Jones, O., Kerbel, G. D., Kerr, S. M., Khan, S. F., Kilkenny, J., Kim, Y., Kleinrath, H. Geppert, Kleinrath, V. Geppert, Kong, C., Koning, J. M., Kroll, J. J., Landen, O. L., Langer, S., Larson, D., Lemos, N. C., Lindl, J. D., Ma, T., MacDonald, M. J., MacGowan, B. J., Mackinnon, A. J., MacLaren, S. A., MacPhee, A. G., Marinak, M. M., Mariscal, D. A., Marley, E. V., Masse, L., Meaney, K., Meezan, N. B., Michel, P. A., Millot, M., Milovich, J. L., Moody, J. D., Moore, A. S., Morton, J. W., Murphy, T., Newman, K., Di Nicola, J. -M. G., Nikroo, A., Nora, R., Patel, M. V., Pelz, L. J., Peterson, J. L., Ping, Y., Pollock, B. B., Ratledge, M., Rice, N. G., Rinderknecht, H., Rosen, M., Rubery, M. S., Salmonson, J. D., Sater, J., Schiaffino, S., Schlossberg, D. J., Schneider, M. B., Schroeder, C. R., Scott, H. A., Sepke, S. M., Sequoia, K., Sherlock, M. W., Shin, S., Smalyuk, V. A., Spears, B. K., Springer, P. T., Stadermann, M., Stoupin, S., Strozzi, D. J., Suter, L. J., Thomas, C. A., Town, R. P. J., Tubman, E. R., Volegov, P. L., Weber, C. R., Widmann, K., Wild, C., Wilde, C. H., Van Wonterghem, B. M., Woods, D. T., Woodworth, B. N., Yamaguchi, M., Yang, S. T., and Zimmerman, G. B.

Subjects
Physics - Plasma Physics, High Energy Physics - Experiment
Abstract

An experimental program is currently underway at the National Ignition Facility (NIF) to compress deuterium and tritium (DT) fuel to densities and temperatures sufficient to achieve fusion and energy gain. The primary approach being investigated is indirect drive inertial confinement fusion (ICF), where a high-Z radiation cavity (a hohlraum) is heated by lasers, converting the incident energy into x-ray radiation which in turn drives the DT fuel filled capsule causing it to implode. Previous experiments reported DT fuel gain exceeding unity [O.A. Hurricane et al., Nature 506, 343 (2014)] and then exceeding the kinetic energy of the imploding fuel [S. Le Pape et al., Phys. Rev. Lett. 120, 245003 (2018)]. We report on recent experiments that have achieved record fusion neutron yields on NIF, greater than 100 kJ with momentary fusion powers exceeding 1PW, and have for the first time entered the burning plasma regime where fusion alpha-heating of the fuel exceeds the energy delivered to the fuel via compression. This was accomplished by increasing the size of the high-density carbon (HDC) capsule, increasing energy coupling, while controlling symmetry and implosion design parameters. Two tactics were successful in controlling the radiation flux symmetry and therefore the implosion symmetry: transferring energy between laser cones via plasma waves, and changing the shape of the hohlraum. In conducting these experiments, we controlled for known sources of degradation. Herein we show how these experiments were performed to produce record performance, and demonstrate the data fidelity leading us to conclude that these shots have entered the burning plasma regime.

Published
2021

3. Bayesian inferences of electrical current delivered to shocked transmission lines.

Author

Hutchinson, T. M., Ali, S. J., Grim, G. P., Meezan, N. B., and LeChien, K. R.

Subjects
ELECTRIC lines, BAYESIAN field theory, ESTIMATION theory, INERTIAL confinement fusion
Abstract

Small radius Bdot measurements of electrical current delivered by pulsed power devices are routinely compromised by electrode/convolute plasmas endemic to multiterawatt transmission lines. Inferences of delivered current unaffected by these issues have recently been obtained by numerically optimizing consistency between model predictions and local experimental velocimetry data, but these are only unique for shockless velocity profiles. Here, we describe a more general Bayesian method capable of inferring current despite the presence of shocks. Additionally, we describe uncertainty estimates and use of the technique on experimental data. This technique is the first to provide uncertainty estimates on the full current trace delivered to an inertial confinement fusion target. [ABSTRACT FROM AUTHOR]

Published
2023
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4. Design of inertial fusion implosions reaching the burning plasma regime

Author

Kritcher, A. L., Young, C. V., Robey, H. F., Weber, C. R., Zylstra, A. B., Hurricane, O. A., Callahan, D. A., Ralph, J. E., Ross, J. S., Baker, K. L., Casey, D. T., Clark, D. S., Döppner, T., Divol, L., Hohenberger, M., Hopkins, L. Berzak, Le Pape, S., Meezan, N. B., Pak, A., Patel, P. K., Tommasini, R., Ali, S. J., Amendt, P. A., Atherton, L. J., Bachmann, B., Bailey, D., Benedetti, L. R., Betti, R., Bhandarkar, S. D., Biener, J., Bionta, R. M., Birge, N. W., Bond, E. J., Bradley, D. K., Braun, T., Briggs, T. M., Bruhn, M. W., Celliers, P. M., Chang, B., Chapman, T., Chen, H., Choate, C., Christopherson, A. R., Crippen, J. W., Dewald, E. L., Dittrich, T. R., Edwards, M. J., Farmer, W. A., Field, J. E., Fittinghoff, D., Frenje, J. A., Gaffney, J. A., Johnson, M. Gatu, Glenzer, S. H., Grim, G. P., Haan, S., Hahn, K. D., Hall, G. N., Hammel, B. A., Harte, J., Hartouni, E., Heebner, J. E., Hernandez, V. J., Herrmann, H., Herrmann, M. C., Hinkel, D. E., Ho, D. D., Holder, J. P., Hsing, W. W., Huang, H., Humbird, K. D., Izumi, N., Jarrott, L. C., Jeet, J., Jones, O., Kerbel, G. D., Kerr, S. M., Khan, S. F., Kilkenny, J., Kim, Y., Geppert-Kleinrath, H., Geppert-Kleinrath, V., Kong, C., Koning, J. M., Kruse, M. K. G., Kroll, J. J., Kustowski, B., Landen, O. L., Langer, S., Larson, D., Lemos, N. C., Lindl, J. D., Ma, T., MacDonald, M. J., MacGowan, B. J., Mackinnon, A. J., MacLaren, S. A., MacPhee, A. G., Marinak, M. M., Mariscal, D. A., Marley, E. V., Masse, L., Meaney, K., Michel, P. A., Millot, M., Milovich, J. L., Moody, J. D., Moore, A. S., Morton, J. W., Murphy, T., Newman, K., Di Nicola, J.-M. G., Nikroo, A., Nora, R., Patel, M. V., Pelz, L. J., Peterson, J. L., Ping, Y., Pollock, B. B., Ratledge, M., Rice, N. G., Rinderknecht, H., Rosen, M., Rubery, M. S., Salmonson, J. D., Sater, J., Schiaffino, S., Schlossberg, D. J., Schneider, M. B., Schroeder, C. R., Scott, H. A., Sepke, S. M., Sequoia, K., Sherlock, M. W., Shin, S., Smalyuk, V. A., Spears, B. K., Springer, P. T., Stadermann, M., Stoupin, S., Strozzi, D. J., Suter, L. J., Thomas, C. A., Town, R. P. J., Trosseille, C., Tubman, E. R., Volegov, P. L., Widmann, K., Wild, C., Wilde, C. H., Van Wonterghem, B. M., Woods, D. T., Woodworth, B. N., Yamaguchi, M., Yang, S. T., and Zimmerman, G. B.

Published
2022
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5. Burning plasma achieved in inertial fusion

Author

Zylstra, A. B., Hurricane, O. A., Callahan, D. A., Kritcher, A. L., Ralph, J. E., Robey, H. F., Ross, J. S., Young, C. V., Baker, K. L., Casey, D. T., Döppner, T., Divol, L., Hohenberger, M., Le Pape, S., Pak, A., Patel, P. K., Tommasini, R., Ali, S. J., Amendt, P. A., Atherton, L. J., Bachmann, B., Bailey, D., Benedetti, L. R., Berzak Hopkins, L., Betti, R., Bhandarkar, S. D., Biener, J., Bionta, R. M., Birge, N. W., Bond, E. J., Bradley, D. K., Braun, T., Briggs, T. M., Bruhn, M. W., Celliers, P. M., Chang, B., Chapman, T., Chen, H., Choate, C., Christopherson, A. R., Clark, D. S., Crippen, J. W., Dewald, E. L., Dittrich, T. R., Edwards, M. J., Farmer, W. A., Field, J. E., Fittinghoff, D., Frenje, J., Gaffney, J., Gatu Johnson, M., Glenzer, S. H., Grim, G. P., Haan, S., Hahn, K. D., Hall, G. N., Hammel, B. A., Harte, J., Hartouni, E., Heebner, J. E., Hernandez, V. J., Herrmann, H., Herrmann, M. C., Hinkel, D. E., Ho, D. D., Holder, J. P., Hsing, W. W., Huang, H., Humbird, K. D., Izumi, N., Jarrott, L. C., Jeet, J., Jones, O., Kerbel, G. D., Kerr, S. M., Khan, S. F., Kilkenny, J., Kim, Y., Geppert Kleinrath, H., Geppert Kleinrath, V., Kong, C., Koning, J. M., Kroll, J. J., Kruse, M. K. G., Kustowski, B., Landen, O. L., Langer, S., Larson, D., Lemos, N. C., Lindl, J. D., Ma, T., MacDonald, M. J., MacGowan, B. J., Mackinnon, A. J., MacLaren, S. A., MacPhee, A. G., Marinak, M. M., Mariscal, D. A., Marley, E. V., Masse, L., Meaney, K., Meezan, N. B., Michel, P. A., Millot, M., Milovich, J. L., Moody, J. D., Moore, A. S., Morton, J. W., Murphy, T., Newman, K., Di Nicola, J.-M. G., Nikroo, A., Nora, R., Patel, M. V., Pelz, L. J., Peterson, J. L., Ping, Y., Pollock, B. B., Ratledge, M., Rice, N. G., Rinderknecht, H., Rosen, M., Rubery, M. S., Salmonson, J. D., Sater, J., Schiaffino, S., Schlossberg, D. J., Schneider, M. B., Schroeder, C. R., Scott, H. A., Sepke, S. M., Sequoia, K., Sherlock, M. W., Shin, S., Smalyuk, V. A., Spears, B. K., Springer, P. T., Stadermann, M., Stoupin, S., Strozzi, D. J., Suter, L. J., Thomas, C. A., Town, R. P. J., Tubman, E. R., Trosseille, C., Volegov, P. L., Weber, C. R., Widmann, K., Wild, C., Wilde, C. H., Van Wonterghem, B. M., Woods, D. T., Woodworth, B. N., Yamaguchi, M., Yang, S. T., and Zimmerman, G. B.

Published
2022
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6. The crucial role of diagnostics in achieving ignition on the National Ignition Facility (NIF).

Author

Kilkenny, J. D., Pak, A., Landen, O. L., Moore, A. S., Meezan, N. B., Haan, S. W., Hsing, W. W., Batha, S. H., Bradley, D. K., Gatu-Johnson, M., Mackinnon, A. J., Regan, S. P., and Smalyuk, V. A.

Subjects
TREND analysis, SCIENTIFIC discoveries, FALSIFICATION, LASERS, LOGIC
Abstract

Well over 100 diagnostics can operate on the National Ignition Facility (NIF) as a result of several decades of development on NIF, and before that on Nova, OMEGA, and earlier LLNL lasers. A subset of these have guided the approach to achieving ignition on the NIF in 2022 [H. Abu-Shawareb et al. (Indirect Drive ICF Collaboration), Phys. Rev. Lett. 129(7), 075001 (2022)]. Achieving ignition on NIF has required many types of experiments with this core set of diagnostics, some constraining known unknowns and some revealing surprises—arguably unknown unknowns. Early design work realized that the extreme precision required for ignition on NIF would require fine-tuning by experiment, that is, measuring and adjusting known unknowns. Many examples are given where the use of the core set of ignition diagnostics in experimental arrangements called platforms demonstrated control of the key theoretical parameters defined as shape, adiabat, velocity, and mix. The direction of the adjustments to input conditions is found either by trend analysis or, in many cases, by observing from the diagnostic data the direction to make an adjustment. In addition, diagnostics have revealed some unexpected or neglected known issues, which degrade performance, or unexpected issues, unknown unknowns. Some of these factors had been previously considered, but underestimated or difficult to calculate at the time. The overall methodology can be described as a variant of Popper's falsifiability philosophy [K. Popper, The Logic of Scientific Discovery (Hutchinson, 1974)]. This paper summarizes the role of ignition diagnostics in terms of falsification or validation of theory or experimental setup as well as uncovering unexpected issues. The journey to ignition started in the seventies with a 1-µm wavelength laser producing disastrous results. Diagnostics have guided us to the recent multi-decadal goal of demonstrating ignition and burn in the laboratory. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Publisher Correction: Burning plasma achieved in inertial fusion

Author

Zylstra, A. B., Hurricane, O. A., Callahan, D. A., Kritcher, A. L., Ralph, J. E., Robey, H. F., Ross, J. S., Young, C. V., Baker, K. L., Casey, D. T., Döppner, T., Divol, L., Hohenberger, M., Le Pape, S., Pak, A., Patel, P. K., Tommasini, R., Ali, S. J., Amendt, P. A., Atherton, L. J., Bachmann, B., Bailey, D., Benedetti, L. R., Berzak Hopkins, L., Betti, R., Bhandarkar, S. D., Biener, J., Bionta, R. M., Birge, N. W., Bond, E. J., Bradley, D. K., Braun, T., Briggs, T. M., Bruhn, M. W., Celliers, P. M., Chang, B., Chapman, T., Chen, H., Choate, C., Christopherson, A. R., Clark, D. S., Crippen, J. W., Dewald, E. L., Dittrich, T. R., Edwards, M. J., Farmer, W. A., Field, J. E., Fittinghoff, D., Frenje, J., Gaffney, J., Gatu Johnson, M., Glenzer, S. H., Grim, G. P., Haan, S., Hahn, K. D., Hall, G. N., Hammel, B. A., Harte, J., Hartouni, E., Heebner, J. E., Hernandez, V. J., Herrmann, H., Herrmann, M. C., Hinkel, D. E., Ho, D. D., Holder, J. P., Hsing, W. W., Huang, H., Humbird, K. D., Izumi, N., Jarrott, L. C., Jeet, J., Jones, O., Kerbel, G. D., Kerr, S. M., Khan, S. F., Kilkenny, J., Kim, Y., Geppert Kleinrath, H., Geppert Kleinrath, V., Kong, C., Koning, J. M., Kroll, J. J., Kruse, M. K. G., Kustowski, B., Landen, O. L., Langer, S., Larson, D., Lemos, N. C., Lindl, J. D., Ma, T., MacDonald, M. J., MacGowan, B. J., Mackinnon, A. J., MacLaren, S. A., MacPhee, A. G., Marinak, M. M., Mariscal, D. A., Marley, E. V., Masse, L., Meaney, K., Meezan, N. B., Michel, P. A., Millot, M., Milovich, J. L., Moody, J. D., Moore, A. S., Morton, J. W., Murphy, T., Newman, K., Di Nicola, J.-M. G., Nikroo, A., Nora, R., Patel, M. V., Pelz, L. J., Peterson, J. L., Ping, Y., Pollock, B. B., Ratledge, M., Rice, N. G., Rinderknecht, H., Rosen, M., Rubery, M. S., Salmonson, J. D., Sater, J., Schiaffino, S., Schlossberg, D. J., Schneider, M. B., Schroeder, C. R., Scott, H. A., Sepke, S. M., Sequoia, K., Sherlock, M. W., Shin, S., Smalyuk, V. A., Spears, B. K., Springer, P. T., Stadermann, M., Stoupin, S., Strozzi, D. J., Suter, L. J., Thomas, C. A., Town, R. P. J., Tubman, E. R., Trosseille, C., Volegov, P. L., Weber, C. R., Widmann, K., Wild, C., Wilde, C. H., Van Wonterghem, B. M., Woods, D. T., Woodworth, B. N., Yamaguchi, M., Yang, S. T., and Zimmerman, G. B.

Published
2022
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8. Reaching a burning plasma and ignition using smaller capsules/Hohlraums, higher radiation temperatures, and thicker ablator/ice on the national ignition facility

Author

Baker, K. L., primary, Thomas, C. A., additional, Landen, O. L., additional, Haan, S., additional, Lindl, J. D., additional, Casey, D. T., additional, Young, C., additional, Nora, R., additional, Hurricane, O. A., additional, Callahan, D. A., additional, Jones, O., additional, Berzak Hopkins, L., additional, Khan, S., additional, Spears, B. K., additional, Le Pape, S., additional, Meezan, N. B., additional, Ho, D. D., additional, Döppner, T., additional, Hinkel, D., additional, Dewald, E. L., additional, Tommasini, R., additional, Hohenberger, M., additional, Weber, C., additional, Clark, D., additional, Woods, D. T., additional, Milovich, J. L., additional, Strozzi, D., additional, Kritcher, A., additional, Robey, H. F., additional, Ross, J. S., additional, Smalyuk, V. A., additional, Amendt, P. A., additional, Bachmann, B., additional, Benedetti, L. R., additional, Bionta, R., additional, Celliers, P. M., additional, Fittinghoff, D., additional, Goyon, C., additional, Hatarik, R., additional, Izumi, N., additional, Gatu Johnson, M., additional, Kyrala, G., additional, Ma, T., additional, Meaney, K., additional, Millot, M., additional, Nagel, S. R., additional, Patel, P. K., additional, Turnbull, D., additional, Volegov, P. L., additional, Yeamans, C., additional, and Wilde, C., additional

Published
2023
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9. Optimization of Backscatter and Symmetry for Laser Fusion Experiments Using Multiple Tunable Wavelengths

Author

Ralph, J. E., primary, Michel, P., additional, MacGowan, B. J., additional, Strozzi, D. J., additional, Meezan, N. B., additional, Di Nicola, J.-M., additional, Heebner, J. E., additional, Hernandez, V. J, additional, Pelz, L., additional, Yang, S., additional, Lemos, N., additional, Divol, L., additional, Kemp, A., additional, Chapman, T., additional, Khan, S. F., additional, Landen, O. L., additional, Moody, J. D., additional, Town, R. P. J., additional, and Edwards, M. J., additional

Published
2022
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10. Specular reflections (“glint”) of the inner beams in a gas-filled cylindrical hohlraum

Author

Lemos, N., primary, Farmer, W. A., additional, Izumi, N., additional, Chen, H., additional, Kur, E., additional, Pak, A., additional, Pollock, B. B., additional, Moody, J. D., additional, Ross, J. S., additional, Hinkel, D. E., additional, Jones, O. S., additional, Chapman, T., additional, Meezan, N. B., additional, Michel, P. A., additional, and Landen, O. L., additional

Published
2022
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11. Hohlraum Living Document 2019Nov5

Author

Hinkel, D E, primary, Callahan, D A, additional, Edwards, M J, additional, Jones, O S, additional, Laffite, S, additional, Gauthier, P, additional, Michel, P A, additional, Masson-Laborde, P E, additional, Landen, O L, additional, Meezan, N B, additional, Moody, J D, additional, and Schneider, M B, additional

Published
2019
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14. Symmetric Inertial Confinement Fusion Implosions at Ultra-High Laser Energies

Author

Glenzer, S. H., MacGowan, B. J., Michel, P., Meezan, N. B., Suter, L. J., Dixit, S. N., Kline, J. L., Kyrala, G. A., Bradley, D. K., Callahan, D. A., Dewald, E. L., Divol, L., Dzenitis, E., Edwards, M. J., Hamza, A. V., Haynam, C. A., Hinkel, D. E., Kalantar, D. H., Kilkenny, J. D., Landen, O. L., Lindl, J. D., LePape, S., Moody, J. D., Nikroo, A., Parham, T., Schneider, M. B., Town, R. P. J., Wegner, P., Widmann, K., Whitman, P., Young, B. K. F., Van Wonterghem, B., Atherton, L. J., and Moses, E. I.

Published
2010
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16. The effects of multispecies Hohlraum walls on stimulated Brillouin scattering, Hohlraum dynamics, and beam propagation

Author

Ralph, J. E., primary, Kemp, A., additional, Meezan, N. B., additional, Berger, R. L., additional, Strozzi, D., additional, MacGowan, B. J., additional, Landen, O., additional, Lemos, N., additional, Belyaev, M., additional, Biener, M., additional, Callahan, D. A., additional, Chapman, T., additional, Divol, L., additional, Hinkel, D. E., additional, Moody, J., additional, Nikroo, A., additional, Jones, O., additional, Schiaffino, S., additional, Stadermann, M., additional, and Michel, P., additional

Published
2021
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17. Developing “inverted-corona” fusion targets as high-fluence neutron sources

Author

Hohenberger, M., primary, Meezan, N. B., additional, Riedel, W. M., additional, Kabadi, N., additional, Forrest, C. J., additional, Aghaian, L., additional, Cappelli, M. A., additional, Farrell, M., additional, Glenzer, S. H., additional, Heeter, B., additional, Heredia, R., additional, Landen, O. L., additional, Mackinnon, A. J., additional, Petrasso, R., additional, Shuldberg, C. M., additional, Treffert, F., additional, and Hsing, W. W., additional

Published
2021
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18. The first target experiments on the National Ignition Facility

Author

Landen, O. L., Glenzer, S. H., Froula, D. H., Dewald, E. L., Suter, L. J., Schneider, M. B., Hinkel, D. E., Fernandez, J. C., Kline, J. L., Goldman, S. R., Braun, D. G., Celliers, P. M., Moon, S. J., Robey, H. S., Lanier, N. E., Glendinning, S. G., Blue, B. E., Wilde, B. H., Jones, O. S., Schein, J., Divol, L., Kalantar, D. H., Campbell, K. M., Holder, J. P., McDonald, J. W., Niemann, C., Mackinnon, A. J., Collins, G. W., Bradley, D. K., Eggert, J. H., Hicks, D. G., Gregori, G., Kirkwood, R. K., Young, B. K., Foster, J. M., Hansen, J. F., Perry, T. S., Munro, D. H., Baldis, H. A., Grim, G. P., Heeter, R. F., Hegelich, M. B., Montgomery, D. S., Rochau, G. A., Olson, R. E., Turner, R. E., Workman, J. B., Berger, R. L., Cohen, B. I., Kruer, W. L., Langdon, A. B., Langer, S. H., Meezan, N. B., Rose, H. A., Still, C. H., Williams, E. A., Dodd, E. S., Edwards, M. J., Monteil, M.-C., Stevenson, R. M., Thomas, B. R., Coker, R. F., Magelssen, G. R., Rosen, P. A., Stry, P. E., Woods, D., Weber, S. V., Young, P. E., Alvarez, S., Armstrong, G., Bahr, R., Bourgade, J.-L., Bower, D., Celeste, J., Chrisp, M., Compton, S., Cox, J., Constantin, C., Costa, R., Duncan, J., Ellis, A., Emig, J., Gautier, C., Greenwood, A., Griffith, R., Holdner, F., Holtmeier, G., Hargrove, D., James, T., Kamperschroer, J., Kimbrough, J., Landon, M., Lee, F. D., Malone, R., May, M., Montelongo, S., Moody, J., Ng, E., Nikitin, A., Pellinen, D., Piston, K., Poole, M., Rekow, V., Rhodes, M., Shepherd, R., Shiromizu, S., Voloshin, D., Warrick, A., Watts, P., Weber, F., Young, P., Arnold, P., Atherton, L., Bardsley, G., Bonanno, R., Borger, T., Bowers, M., Bryant, R., Buckman, S., Burkhart, S., Cooper, F., Dixit, S. N., Erbert, G., Eder, D. C., Ehrlich, R. E., Felker, B., Fornes, J., Frieders, G., Gardner, S., Gates, C., Gonzalez, M., Grace, S., Hall, T., Haynam, C. A., Heestand, G., Henesian, M. A., Hermann, M., Hermes, G., Huber, S., Jancaitis, K., Johnson, S., Kauffman, B., Kelleher, T., Kohut, T., Koniges, A. E., Labiak, T., Latray, D., Lee, A., Lund, D., Mahavandi, S., Manes, K. R., Marshall, C., McBride, J., McCarville, T., McGrew, L., Menapace, J., Mertens, E., Murray, J., Neumann, J., Newton, M., Opsahl, P., Padilla, E., Parham, T., Parrish, G., Petty, C., Polk, M., Powell, C., Reinbachs, I., Rinnert, R., Riordan, B., Ross, G., Robert, V., Tobin, M., Sailors, S., Saunders, R., Schmitt, M., Shaw, M., Singh, M., Spaeth, M., Stephens, A., Tietbohl, G., Tuck, J., Van Wonterghem, B. M., Vidal, R., Wegner, P. J., Whitman, P., Williams, K., Winward, K., Work, K., Wallace, R., Nobile, A., Bono, M., Day, B., Elliott, J., Hatch, D., Louis, H., Manzenares, R., O'Brien, D., Papin, P., Pierce, T., Rivera, G., Ruppe, J., Sandoval, D., Schmidt, D., Valdez, L., Zapata, K., MacGowan, B. J., Eckart, M. J., Hsing, W. W., Springer, P. T., Hammel, B. A., Moses, E. I., and Miller, G. H.

Published
2007
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19. Low mode implosion symmetry sensitivity in low gas-fill NIF cylindrical hohlraums

Author

Izumi, N., primary, Woods, D. T., additional, Meezan, N. B., additional, Moody, J. D., additional, Landen, O. L., additional, Divol, L., additional, Chen, Hui, additional, Callahan, D. A., additional, Hohenberger, M., additional, Kritcher, A. L., additional, Casey, D. T., additional, Rosen, M. D., additional, Ross, J. S., additional, Schneider, M. B., additional, Edwards, M. J., additional, and Hsing, W. W., additional

Published
2021
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20. Application of plasma optics to precision control of laser energy deposition in laser-fusion experiments

Author

Michel, P., primary, Berger, R. L., additional, Callahan, D. A., additional, Chapman, T., additional, Di Nicola, J.-M., additional, Divol, L., additional, Edwards, M. J., additional, Heebner, J., additional, Landen, O. L., additional, Lemos, N., additional, MacGowan, B. J., additional, Meezan, N. B., additional, Moody, J. D., additional, Ralph, J., additional, Strozzi, D. J., additional, Suter, L. J., additional, and Town, R. P. J., additional

Published
2021
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21. Foam-lined hohlraum, inertial confinement fusion experiments on the National Ignition Facility

Author

Moore, A. S., primary, Meezan, N. B., additional, Milovich, J., additional, Johnson, S., additional, Heredia, R., additional, Baumann, T. F., additional, Biener, M., additional, Bhandarkar, S. D., additional, Chen, H., additional, Divol, L., additional, Izumi, N., additional, Nikroo, A., additional, Baker, K., additional, Jones, O., additional, Landen, O. L., additional, Hsing, W. W., additional, Moody, J. D., additional, Thomas, C. A., additional, Lahmann, B., additional, Williams, J., additional, Alfonso, N., additional, and Schoff, M. E., additional

Published
2020
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22. Fill tube dynamics in inertial confinement fusion implosions with high density carbon ablators

Author

Baker, K. L., primary, Thomas, C. A., additional, Dittrich, T. R., additional, Landen, O., additional, Kyrala, G., additional, Casey, D. T., additional, Weber, C. R., additional, Milovich, J., additional, Woods, D. T., additional, Schneider, M., additional, Khan, S. F., additional, Spears, B. K., additional, Zylstra, A., additional, Kong, C., additional, Crippen, J., additional, Alfonso, N., additional, Yeamans, C. B., additional, Moody, J. D., additional, Moore, A. S., additional, Meezan, N. B., additional, Pak, A., additional, Fittinghoff, D. N., additional, Volegov, P. L., additional, Hurricane, O., additional, Callahan, D., additional, Patel, P., additional, and Amendt, P., additional

Published
2020
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25. Experimental demonstration of the reduced expansion of a laser-heated surface using a low density foam layer, pertaining to advanced hohlraum designs with less wall-motion

Author

Moore, A. S., primary, Meezan, N. B., additional, Thomas, C. A., additional, Bhandarkar, S. D., additional, Divol, L., additional, Izumi, N., additional, Nikroo, A., additional, Baumann, T. F., additional, Rubery, M. S., additional, Williams, J., additional, Alfonso, N., additional, Landen, O. L., additional, Hsing, W. W., additional, and Moody, J. D., additional

Published
2020
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26. Hotspot conditions achieved in inertial confinement fusion experiments on the National Ignition Facility

Author

Patel, P. K., primary, Springer, P. T., additional, Weber, C. R., additional, Jarrott, L. C., additional, Hurricane, O. A., additional, Bachmann, B., additional, Baker, K. L., additional, Berzak Hopkins, L. F., additional, Callahan, D. A., additional, Casey, D. T., additional, Cerjan, C. J., additional, Clark, D. S., additional, Dewald, E. L., additional, Divol, L., additional, Döppner, T., additional, Field, J. E., additional, Fittinghoff, D., additional, Gaffney, J., additional, Geppert-Kleinrath, V., additional, Grim, G. P., additional, Hartouni, E. P., additional, Hatarik, R., additional, Hinkel, D. E., additional, Hohenberger, M., additional, Humbird, K., additional, Izumi, N., additional, Jones, O. S., additional, Khan, S. F., additional, Kritcher, A. L., additional, Kruse, M., additional, Landen, O. L., additional, Le Pape, S., additional, Ma, T., additional, MacLaren, S. A., additional, MacPhee, A. G., additional, Masse, L. P., additional, Meezan, N. B., additional, Milovich, J. L., additional, Nora, R., additional, Pak, A., additional, Peterson, J. L., additional, Ralph, J., additional, Robey, H. F., additional, Salmonson, J. D., additional, Smalyuk, V. A., additional, Spears, B. K., additional, Thomas, C. A., additional, Volegov, P. L., additional, Zylstra, A., additional, and Edwards, M. J., additional

Published
2020
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27. Understanding ICF hohlraums using NIF gated laser-entrance-hole images

Author

Chen, Hui, primary, Woods, D. T., additional, Jones, O. S., additional, Benedetti, L. R., additional, Dewald, E. L., additional, Izumi, N., additional, MacLaren, S. A., additional, Meezan, N. B., additional, Moody, J. D., additional, Palmer, N. E., additional, Schneider, M. B., additional, and Vandenboomgaerde, M., additional

Published
2020
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30. Ignition tuning for the National Ignition Campaign

Author

Landen O., Edwards J., Haan S.W., Lindl J.D., Boehly T.R., Bradley D.K., Callahan D.A., Celliers P.M., Dewald E.L., Dixit S., Doeppner T., Eggert J., Farley D., Frenje J.A., Glenn S., Glenzer S.H., Hamza A., Hammel B.A., Haynam C., LaFortune K., Hicks D.G., Hoffman N., Izumi N., Jones O.S., Kilkenny J.D., Kline J.L., Kyrala G.A., Mackinnon A.J., Milovich J., Moody J., Meezan N., Michel P., Munro D.H., Olson R.E., Ralph J., Robey H.F., Nikroo A., Regan S.P., Spears B.K., Suter L.J., Thomas C.A., Town R., Wilson D.C., MacGowan B.J., Atherton L.J., and Moses E.I.

Subjects
Physics, QC1-999
Abstract

The overall goal of the indirect-drive inertial confinement fusion [1] tuning campaigns [2] is to maximize the probability of ignition by experimentally correcting for likely residual uncertainties in the implosion and hohlraum physics [3] used in our radiation-hydrodynamic computational models, and by checking for and resolving unexpected shot-to-shot variability in performance [4]. This has been started successfully using a variety of surrogate capsules that set key laser, hohlraum and capsule parameters to maximize ignition capsule implosion velocity, while minimizing fuel adiabat, core shape asymmetry and ablator-fuel mix.

Published
2013
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31. NIF capsule performance modeling

Author

Weber S., Callahan D., Cerjan C., Edwards M., Haan S., Hicks D., Jones O., Kyrala G., Meezan N., Olson R., Robey H., Spears B., Springer P., and Town R.

Subjects
Physics, QC1-999
Abstract

Post-shot modeling of NIF capsule implosions was performed in order to validate our physical and numerical models. Cryogenic layered target implosions and experiments with surrogate targets produce an abundance of capsule performance data including implosion velocity, remaining ablator mass, times of peak x-ray and neutron emission, core image size, core symmetry, neutron yield, and x-ray spectra. We have attempted to match the integrated data set with capsule-only simulations by adjusting the drive and other physics parameters within expected uncertainties. The simulations include interface roughness, time-dependent symmetry, and a model of mix. We were able to match many of the measured performance parameters for a selection of shots.

Published
2013
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32. Towards an integrated model of the NIC layered implosions

Author

Jones O., Callahan D., Cerjan C., Clark D., Edwards M.J., Glenzer S., Marinak M., Meezan N., Milovich J., Olson R., Patel M., Robey H., Sepke S., Spears B., Springer P., Weber S., and Wilson D.

Subjects
Physics, QC1-999
Abstract

A detailed simulation-based model of the June 2011 National Ignition Campaign (NIC) cryogenic DT experiments is presented. The model is based on integrated hohlraum-capsule simulations that utilize the best available models for the hohlraum wall, ablator, and DT equations of state and opacities. The calculated radiation drive was adjusted by changing the input laser power to match the experimentally measured shock speeds, shock merger times, peak implosion velocity, and bangtime. The crossbeam energy transfer model was tuned to match the measured time-dependent symmetry. Mid-mode mix was included by directly modeling the ablator and ice surface perturbations up to mode 60. Simulated experimental values were extracted from the simulation and compared against the experiment. The model adjustments brought much of the simulated data into closer agreement with the experiment, with the notable exception of the measured yields, which were 15–40% of the calculated yields.

Published
2013
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34. Neutron Time-of-Flight Measurements of Charged-Particle Energy Loss in Inertial Confinement Fusion Plasmas

Author

Sayre, D. B., primary, Cerjan, C. J., additional, Sepke, S. M., additional, Gericke, D. O., additional, Caggiano, J. A., additional, Divol, L., additional, Eckart, M. J., additional, Graziani, F. R., additional, Grim, G. P., additional, Hansen, S. B., additional, Hartouni, E. P., additional, Hatarik, R., additional, Hatchett, S. P., additional, Hayes, A. K., additional, Hopkins, L. F. Berzak, additional, Johnson, M. Gatu, additional, Khan, S. F., additional, Knauer, J. P., additional, Le Pape, S., additional, MacKinnon, A. J., additional, McNaney, J. M., additional, Meezan, N. B., additional, Rinderknecht, H. G., additional, Shaughnessy, D. A., additional, Stoeffl, W., additional, Yeamans, C. B., additional, Zylstra, A. B., additional, and Schneider, D. H., additional

Published
2019
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35. The Crystal Backlighter Imager: A spherically bent crystal imager for radiography on the National Ignition Facility

Author

Hall, G. N., primary, Krauland, C. M., additional, Schollmeier, M. S., additional, Kemp, G. E., additional, Buscho, J. G., additional, Hibbard, R., additional, Thompson, N., additional, Casco, E. R., additional, Ayers, M. J., additional, Ayers, S. L., additional, Meezan, N. B., additional, Hopkins, L. F. Berzak, additional, Nora, R., additional, Hammel, B. A., additional, Masse, L., additional, Field, J. E., additional, Bradley, D. K., additional, Bell, P., additional, Landen, O. L., additional, Kilkenny, J. D., additional, Mariscal, D., additional, Park, J., additional, McCarville, T. J., additional, Lowe-Webb, R., additional, Kalantar, D., additional, Kohut, T., additional, and Piston, K., additional

Published
2019
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36. 0.351 micron Laser Beam propagation in High-temperature Plasmas

Author

Froula, D, primary, Divol, L, additional, Meezan, N, additional, Ross, J, additional, Berger, R, additional, Michel, P, additional, Dixit, S, additional, Rekow, V, additional, Sorce, C, additional, Moody, J, additional, Neumayer, P, additional, Pollock, B, additional, Wallace, R, additional, Suter, L, additional, and Glenzer, S, additional

Published
2007
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38. Toward a burning plasma state using diamond ablator inertially confined fusion (ICF) implosions on the National Ignition Facility (NIF)

Author

Hopkins, L Berzak, primary, LePape, S, additional, Divol, L, additional, Pak, A, additional, Dewald, E, additional, Ho, D D, additional, Meezan, N, additional, Bhandarkar, S, additional, Benedetti, L R, additional, Bunn, T, additional, Biener, J, additional, Crippen, J, additional, Casey, D, additional, Clark, D, additional, Edgell, D, additional, Fittinghoff, D, additional, Gatu-Johnson, M, additional, Goyon, C, additional, Haan, S, additional, Hatarik, R, additional, Havre, M, additional, Hinkel, D, additional, Huang, H, additional, Izumi, N, additional, Jaquez, J, additional, Jones, O, additional, Khan, S, additional, Kritcher, A, additional, Kong, C, additional, Kyrala, G, additional, Landen, O, additional, Ma, T, additional, MacPhee, A, additional, MacGowan, B, additional, Mackinnon, A J, additional, Marinak, M, additional, Milovich, J, additional, Millot, M, additional, Michel, P, additional, Moore, A, additional, Nagel, S R, additional, Nikroo, A, additional, Patel, P, additional, Ralph, J, additional, Robey, H, additional, Ross, J S, additional, Rice, N G, additional, Sepke, S, additional, Smalyuk, V A, additional, Sterne, P, additional, Strozzi, D, additional, Stadermann, M, additional, Volegov, P, additional, Weber, C, additional, Wild, C, additional, Yeamans, C, additional, Callahan, D, additional, Hurricane, O, additional, Town, R P J, additional, and Edwards, M J, additional

Published
2018
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39. Simultaneous visualization of wall motion, beam propagation, and implosion symmetry on the National Ignition Facility (invited)

Author

Izumi, N., primary, Meezan, N. B., additional, Johnson, S., additional, Woodworth, B. N., additional, Woods, T., additional, Jones, O. S., additional, Landen, O. L., additional, Kroll, J. J., additional, Vonhof, S., additional, Nikroo, A., additional, Jaquez, J., additional, Kangas, K., additional, Bailey, C., additional, Hardy, M., additional, Ehrlich, R., additional, Ralph, J., additional, Town, R. Pj., additional, Bradley, D. K., additional, Hinkel, D. E., additional, Moore, A. S., additional, Divol, L., additional, Young, C., additional, and Moody, J. D., additional

Published
2018
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40. First demonstration of improved capsule implosions by reducing radiation preheat in uranium vs gold hohlraums

Author

Dewald, E. L., primary, Tommasini, R., additional, Meezan, N. B., additional, Landen, O. L., additional, Khan, S., additional, Rygg, R., additional, Field, J., additional, Moore, A. S., additional, Sayre, D., additional, MacKinnon, A. J., additional, Berzak Hopkins, L. F., additional, Divol, L., additional, Le Pape, S., additional, Pak, A., additional, Thomas, C. A., additional, Farrell, M., additional, Nikroo, A., additional, and Hurricane, O., additional

Published
2018
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41. Developing an Experimental Basis for Understanding Transport in NIF Hohlraum Plasmas

Author

Barrios, M. A., primary, Moody, J. D., additional, Suter, L. J., additional, Sherlock, M., additional, Chen, H., additional, Farmer, W., additional, Jaquez, J., additional, Jones, O., additional, Kauffman, R. L., additional, Kilkenny, J. D., additional, Kroll, J., additional, Landen, O. L., additional, Liedahl, D. A., additional, Maclaren, S. A., additional, Meezan, N. B., additional, Nikroo, A., additional, Schneider, M. B., additional, Thorn, D. B., additional, Widmann, K., additional, and Pérez-Callejo, G., additional

Published
2018
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42. Increasing stagnation pressure and thermonuclear performance of inertial confinement fusion capsules by the introduction of a high-Z dopant

Author

Berzak Hopkins, L., primary, Divol, L., additional, Weber, C., additional, Le Pape, S., additional, Meezan, N. B., additional, Ross, J. S., additional, Tommasini, R., additional, Khan, S., additional, Ho, D. D., additional, Biener, J., additional, Dewald, E., additional, Goyon, C., additional, Kong, C., additional, Nikroo, A., additional, Pak, A., additional, Rice, N., additional, Stadermann, M., additional, Wild, C., additional, Callahan, D., additional, and Hurricane, O., additional

Published
2018
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43. Development of new platforms for hydrodynamic instability and asymmetry measurements in deceleration phase of indirectly driven implosions on NIF

Author

Pickworth, L. A., primary, Hammel, B. A., additional, Smalyuk, V. A., additional, Robey, H. F., additional, Tommasini, R., additional, Benedetti, L. R., additional, Berzak Hopkins, L., additional, Bradley, D. K., additional, Dayton, M., additional, Felker, S., additional, Field, J. E., additional, Haan, S. W., additional, Haid, B., additional, Hatarik, R., additional, Hartouni, E., additional, Holunga, D., additional, Hoppe, M., additional, Izumi, N., additional, Johnson, S., additional, Khan, S., additional, Kohut, T., additional, Lahmann, B., additional, Landen, O. L., additional, LePape, S., additional, MacPhee, A. G., additional, Marley, E., additional, Meezan, N. B., additional, Milovich, J., additional, Nagel, S. R., additional, Nikroo, A., additional, Pak, A. E., additional, Petrasso, R., additional, Remington, B. A., additional, Rice, N. G., additional, Scott, H. A., additional, Springer, P. T., additional, Stadermann, M., additional, Walters, C., additional, Widmann, K., additional, and Hsing, W. W., additional

Published
2018
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44. Fusion Energy Output Greater than the Kinetic Energy of an Imploding Shell at the National Ignition Facility

Author

Le Pape, S., primary, Berzak Hopkins, L. F., additional, Divol, L., additional, Pak, A., additional, Dewald, E. L., additional, Bhandarkar, S., additional, Bennedetti, L. R., additional, Bunn, T., additional, Biener, J., additional, Crippen, J., additional, Casey, D., additional, Edgell, D., additional, Fittinghoff, D. N., additional, Gatu-Johnson, M., additional, Goyon, C., additional, Haan, S., additional, Hatarik, R., additional, Havre, M., additional, Ho, D. D-M., additional, Izumi, N., additional, Jaquez, J., additional, Khan, S. F., additional, Kyrala, G. A., additional, Ma, T., additional, Mackinnon, A. J., additional, MacPhee, A. G., additional, MacGowan, B. J., additional, Meezan, N. B., additional, Milovich, J., additional, Millot, M., additional, Michel, P., additional, Nagel, S. R., additional, Nikroo, A., additional, Patel, P., additional, Ralph, J., additional, Ross, J. S., additional, Rice, N. G., additional, Strozzi, D., additional, Stadermann, M., additional, Volegov, P., additional, Yeamans, C., additional, Weber, C., additional, Wild, C., additional, Callahan, D., additional, and Hurricane, O. A., additional

Published
2018
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45. Exploring the limits of case-to-capsule ratio, pulse length, and picket energy for symmetric hohlraum drive on the National Ignition Facility Laser

Author

Callahan, D. A., primary, Hurricane, O. A., additional, Ralph, J. E., additional, Thomas, C. A., additional, Baker, K. L., additional, Benedetti, L. R., additional, Berzak Hopkins, L. F., additional, Casey, D. T., additional, Chapman, T., additional, Czajka, C. E., additional, Dewald, E. L., additional, Divol, L., additional, Döppner, T., additional, Hinkel, D. E., additional, Hohenberger, M., additional, Jarrott, L. C., additional, Khan, S. F., additional, Kritcher, A. L., additional, Landen, O. L., additional, LePape, S., additional, MacLaren, S. A., additional, Masse, L. P., additional, Meezan, N. B., additional, Pak, A. E., additional, Salmonson, J. D., additional, Woods, D. T., additional, Izumi, N., additional, Ma, T., additional, Mariscal, D. A., additional, Nagel, S. R., additional, Kline, J. L., additional, Kyrala, G. A., additional, Loomis, E. N., additional, Yi, S. A., additional, Zylstra, A. B., additional, and Batha, S. H., additional

Published
2018
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46. Variable convergence liquid layer implosions on the National Ignition Facility

Author

Zylstra, A. B., primary, Yi, S. A., additional, Haines, B. M., additional, Olson, R. E., additional, Leeper, R. J., additional, Braun, T., additional, Biener, J., additional, Kline, J. L., additional, Batha, S. H., additional, Berzak Hopkins, L., additional, Bhandarkar, S., additional, Bradley, P. A., additional, Crippen, J., additional, Farrell, M., additional, Fittinghoff, D., additional, Herrmann, H. W., additional, Huang, H., additional, Khan, S., additional, Kong, C., additional, Kozioziemski, B. J., additional, Kyrala, G. A., additional, Ma, T., additional, Meezan, N. B., additional, Merrill, F., additional, Nikroo, A., additional, Peterson, R. R., additional, Rice, N., additional, Sater, J. D., additional, Shah, R. C., additional, Stadermann, M., additional, Volegov, P., additional, Walters, C., additional, and Wilson, D. C., additional

Published
2018
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47. Comparison of plastic, high density carbon, and beryllium as indirect drive NIF ablators

Author

Kritcher, A. L., primary, Clark, D., additional, Haan, S., additional, Yi, S. A., additional, Zylstra, A. B., additional, Callahan, D. A., additional, Hinkel, D. E., additional, Berzak Hopkins, L. F., additional, Hurricane, O. A., additional, Landen, O. L., additional, MacLaren, S. A., additional, Meezan, N. B., additional, Patel, P. K., additional, Ralph, J., additional, Thomas, C. A., additional, Town, R., additional, and Edwards, M. J., additional

Published
2018
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48. Visualizing deceleration-phase instabilities in inertial confinement fusion implosions using an “enhanced self-emission” technique at the National Ignition Facility

Author

Pickworth, L. A., primary, Hammel, B. A., additional, Smalyuk, V. A., additional, Robey, H. F., additional, Benedetti, L. R., additional, Berzak Hopkins, L., additional, Bradley, D. K., additional, Field, J. E., additional, Haan, S. W., additional, Hatarik, R., additional, Hartouni, E., additional, Izumi, N., additional, Johnson, S., additional, Khan, S., additional, Lahmann, B., additional, Landen, O. L., additional, Le Pape, S., additional, MacPhee, A. G., additional, Meezan, N. B., additional, Milovich, J., additional, Nagel, S. R., additional, Nikroo, A., additional, Pak, A. E., additional, Petrasso, R., additional, Remington, B. A., additional, Rice, N. G., additional, Springer, P. T., additional, Stadermann, M., additional, Widmann, K., additional, and Hsing, W., additional

Published
2018
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49. Measuring the shock impedance mismatch between high-density carbon and deuterium at the National Ignition Facility

Author

Millot, M., primary, Celliers, P. M., additional, Sterne, P. A., additional, Benedict, L. X., additional, Correa, A. A., additional, Hamel, S., additional, Ali, S. J., additional, Baker, K. L., additional, Berzak Hopkins, L. F., additional, Biener, J., additional, Collins, G. W., additional, Coppari, F., additional, Divol, L., additional, Fernandez-Panella, A., additional, Fratanduono, D. E., additional, Haan, S. W., additional, Le Pape, S., additional, Meezan, N. B., additional, Moore, A. S., additional, Moody, J. D., additional, Ralph, J. E., additional, Ross, J. S., additional, Rygg, J. R., additional, Thomas, C., additional, Turnbull, D. P., additional, Wild, C., additional, and Eggert, J. H., additional

Published
2018
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