Your search keyword '"Séguin, F H"' showing total 481 results

1. Diagnosing Magnetic Fields in Cylindrical Implosions with Oblique Proton Radiography

Author

Heuer, P. V., Leal, L. S., Davies, J. R., Hansen, E. C., Barnak, D. H., Peebles, J. L., García-Rubio, F., Pollock, B., Moody, J., Birkel, A., and Seguin, F. H.

Subjects

Physics - Plasma Physics

Abstract

Two experiments on the OMEGA Laser System used oblique proton radiography to measure magnetic fields in cylindrical implosions with and without an applied axial magnetic field. Although the goal of both experiments was to measure the magnitude of the compressed axial magnetic field in the core of the implosion, this field was obfuscated by two features in the coronal plasma produced by the compression beams: an azimuthal self-generated magnetic field and small length scale, high-amplitude structures attributed to collisionless effects. In order to understand these features, synthetic radiographs are generated using fields produced by 3-D HYDRA simulations. These synthetic radiographs reproduce the features of the experimental radiographs with the exception of the small-scale structures. A direct inversion algorithm is successfully applied to a synthetic radiograph, but is only partially able to invert the experimental radiographs in part because some protons are blocked by the field coils. The origins of the radiograph features and their dependence on various experimental parameters are explored. The results of this analysis should inform future measurements of compressed axial magnetic fields in cylindrical implosions.

Published

2022

2. Insensitivity of a turbulent laser-plasma dynamo to initial conditions

Author

Bott, A. F. A., Chen, L., Tzeferacos, P., Palmer, C. A. J., Bell, A. R., Bingham, R., Birkel, A., Froula, D. H., Katz, J., Kunz, M. W., Li, C. -K., Park, H-S., Petrasso, R., Ross, J. S., Reville, B., Ryu, D., Séguin, F. H., White, T. G., Schekochihin, A. A., Lamb, D. Q., and Gregori, G.

Subjects

Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

It has recently been demonstrated experimentally that a turbulent plasma created by the collision of two inhomogeneous, asymmetric, weakly magnetised laser-produced plasma jets can generate strong stochastic magnetic fields via the small-scale turbulent dynamo mechanism, provided the magnetic Reynolds number of the plasma is sufficiently large. In this paper, we compare such a plasma with one arising from two pre-magnetised plasma jets whose creation is identical save for the addition of a strong external magnetic field imposed by a pulsed magnetic field generator (`MIFEDS'). We investigate the differences between the two turbulent systems using a Thomson-scattering diagnostic, X-ray self-emission imaging and proton radiography. The Thomson-scattering spectra and X-ray images suggest that the presence of the external magnetic field has a limited effect on the plasma dynamics in the experiment. While the presence of the external magnetic field induces collimation of the flows in the colliding plasma jets and the initial strengths of the magnetic fields arising from the interaction between the colliding jets are significantly larger as a result of the external field, the energy and morphology of the stochastic magnetic fields post-amplification are indistinguishable. We conclude that, for turbulent laser-plasmas with super-critical magnetic Reynolds numbers, the dynamo-amplified magnetic fields are determined by the turbulent dynamics rather than the seed fields and modest changes in the initial flow dynamics of the plasma, a finding consistent with theoretical expectations and simulations of turbulent dynamos., Comment: 13 pages, 12 figures

Published

2022

3. Fast magnetic reconnection in highly-extended current sheets at the National Ignition Facility

Author

Fox, W., Schaeffer, D. B., Rosenberg, M. J., Fiksel, G., Matteucci, J., Park, H. -S., Bott, A. F. A., Lezhnin, K., Bhattacharjee, A., Kalantar, D., Remington, B. A., Uzdensky, D., Li, C. K., Séguin, F. H., and Hu, S. X.

Subjects

Physics - Plasma Physics

Abstract

Fast magnetic reconnection was observed between magnetized laser-produced plasmas at the National Ignition Facility. Two highly-elongated plasma plumes were produced by tiling two rows of lasers, with magnetic fields generated in each plume by the Biermann battery effect. Detailed magnetic field observations, obtained from proton radiography using a D$^3$He capsule implosion, reveal reconnection occurring in an extended, quasi-1D current sheet with large aspect ratio $\sim 100$. The 1-D geometry allowed a rigorous and unique reconstruction of the magnetic field, which showed a reconnection current sheet that thinned down to a half-width close to the electron gyro-scale. Despite the large aspect ratio, a large fraction of the magnetic flux reconnected, suggesting fast reconnection supported by the non-gyrotropic electron pressure tensor., Comment: 5 pages, 5 Figures, Supplementary Info

Published

2020

4. Errors in the field reconstruction using CR-39 proton radiographs with high fluence variation.

Author

Foo, B. C., Buschmann, B. I., Cufari, M., Dannhoff, S. G., DeVault, A., Evans, T. E., Johnson, T. M., Kunimune, J. H., Lawrence, Y., Pearcy, J. A., Reichelt, B. L., Russell, L., Vanderloo, N., Vargas, J., Wink, C. W., Johnson, M. Gatu, Séguin, F. H., Petrasso, R. D., and Frenje, J. A.

Abstract

CR-39 proton radiography is an experimental charged-particle backlighter platform fielded and used at OMEGA and the NIF to image electric and magnetic fields in a subject plasma. Processing a piece of CR-39 involves etching it in hot NaOH, and the etch time can greatly impact the background-to-signal ratio (BSR) in low-fluence (≲4 × 104 cm−2) regions and detection efficiency in high-fluence regions (≳7 × 105 cm−2). For CR-39 data with high fluence variation, these effects mean that any single etch time will result in ≳15% error in the measured signal in either the high- or low-fluence regions. This study aims to quantify the impact of the etch time on the BSR and efficiency losses and how these affect the field reconstruction. Experiments at the MIT Linear Electrostatic Ion Accelerator provided empirical values of the BSR and efficiency losses as a function of the fluence and etch time for fluences ranging from 3 × 103 to 7 × 105 cm−2. Synthetic radiographs were generated with known fields and modulated based on empirical values of BSR and efficiency losses. The fields were reconstructed using a Monge–Ampère code with the modulated radiographs as input. The results indicate that combining short and long etches allows for more accurate analysis of radiographs with high fluence variation, with the mean squared error of the reconstructed fields decreasing by factors of 1.2–7 compared to the reconstructions using only one etch time. [ABSTRACT FROM AUTHOR]

Published

2024

5. Diagnosing hot-spot symmetry in surrogate ignition experiments via secondary DT-neutron spectroscopy at the NIF.

Author

Adrian, P. J., Bionta, R., Casey, D., Johnson, M. Gatu, Kerr, S., Lahmann, B., Li, C. K., Nora, R., Petrasso, R. D., Rigon, G., Schlossberg, D., Séguin, F. H., and Frenje, J. A.

Subjects

MONTE Carlo method, X-ray imaging, NUCLEAR fusion, X-ray spectra, IMPLOSIONS, INERTIAL confinement fusion

Abstract

The directional energy spectrum of neutrons generated from the in-flight fusion reaction of 1-MeV tritons contains information about the hot-spot symmetry. The National Ignition Facility (NIF) fields Symmetry Capsule (Symcap) implosions, which have historically measured the symmetry of the radiation, drive by measuring the hot-spot shape via x-ray self-emission. Symcaps are used to tune the hot-spot symmetry for ignition experiments at the NIF. This work shows the relationship between directional secondary DT-n spectra and x-ray imaging data for a large database of Symcap implosions. A correlation is observed between the relative widths of the DT-n spectra measured with nTOFs and the shape measured with x-ray imaging. A Monte Carlo model, which computes the directional secondary DT-n spectrum, is used to interpret the results. A comparison of the x-ray and secondary DT-n data with the Monte Carlo model indicates that 56% of the variance between the two datasets is explained by a P2 asymmetry. More advanced simulations using HYDRA suggest that the unaccounted variance is due to P1 and P4 asymmetries present in the hot spot. The comparison of secondary DT-n data and x-ray imaging data to the modeling shows the DT-n data contain important information that supplements current P2 measurements and contain new information about the P1 asymmetry. [ABSTRACT FROM AUTHOR]

Published

2024

6. Measurements of ion-electron energy-transfer cross section in high-energy-density plasmas

Author

Adrian, P. J., primary, Florido, R., additional, Grabowski, P. E., additional, Mancini, R., additional, Bachmann, B., additional, Benedict, L. X., additional, Johnson, M. Gatu, additional, Kabadi, N., additional, Lahmann, B., additional, Li, C. K., additional, Petrasso, R. D., additional, Rinderknecht, H. G., additional, Regan, S. P., additional, Séguin, F. H., additional, Singleton, R. L., additional, Sio, H., additional, Sutcliffe, G. D., additional, Whitley, H. D., additional, and Frenje, J. A., additional

Published

2022

7. In situ calibration of charged particle spectrometers on the OMEGA Laser Facility using 241Am and 226Ra sources

Author

Adrian, P. J., primary, Armstrong, J., additional, Birkel, A., additional, Chang, C., additional, Dannhoff, S., additional, Evans, T., additional, Johnson, M. Gatu, additional, Johnson, T. M., additional, Kabadi, N., additional, Kunimune, J., additional, Li, C. K., additional, Reichelt, B., additional, Regan, S. P., additional, Pearcy, J., additional, Petrasso, R. D., additional, Pien, G., additional, McCluskey, M., additional, Séguin, F. H., additional, Sutcliffe, G. D., additional, and Frenje, J. A., additional

Published

2022

8. A knock-on deuteron imager for measurements of fuel and hotspot asymmetry in direct-drive inertial confinement fusion implosions (invited)

Author

Rinderknecht, H. G., primary, Heuer, P. V., additional, Kunimune, J., additional, Adrian, P. J., additional, Knauer, J. P., additional, Theobald, W., additional, Fairbanks, R., additional, Brannon, B., additional, Ceurvorst, L., additional, Gopalaswamy, V., additional, Williams, C. A., additional, Radha, P. B., additional, Regan, S. P., additional, Johnson, M. Gatu, additional, Séguin, F. H., additional, and Frenje, J. A., additional

Published

2022

9. High-yield magnetic recoil neutron spectrometer on the National Ignition Facility for operation up to 60 MJ

Author

Gatu Johnson, M., primary, Johnson, T. M., additional, Lahmann, B. J., additional, Séguin, F. H., additional, Sperry, B., additional, Bhandarkar, N., additional, Bionta, R. M., additional, Casco, E., additional, Casey, D. T., additional, Mackinnon, A. J., additional, Masters, N., additional, Moore, A., additional, Nikroo, A., additional, Hoppe, M., additional, Mohammed, R., additional, Sweet, W., additional, Freeman, C., additional, Picciotto, V., additional, Roumell, J., additional, and Frenje, J. A., additional

Published

2022

10. Knock-on deuteron imaging for diagnosing the morphology of an ICF implosion at OMEGA

Author

Kunimune, J. H., primary, Rinderknecht, H. G., additional, Adrian, P. J., additional, Heuer, P. V., additional, Regan, S. P., additional, Séguin, F. H., additional, Gatu Johnson, M., additional, Bahukutumbi, R. P., additional, Knauer, J. P., additional, Bachmann, B. L., additional, and Frenje, J. A., additional

Published

2022

11. Insensitivity of a turbulent laser-plasma dynamo to initial conditions

Author

Bott, A. F. A., primary, Chen, L., additional, Tzeferacos, P., additional, Palmer, C. A. J., additional, Bell, A. R., additional, Bingham, R., additional, Birkel, A., additional, Froula, D. H., additional, Katz, J., additional, Kunz, M. W., additional, Li, C.-K., additional, Park, H-S., additional, Petrasso, R., additional, Ross, J. S., additional, Reville, B., additional, Ryu, D., additional, Séguin, F. H., additional, White, T. G., additional, Schekochihin, A. A., additional, Lamb, D. Q., additional, and Gregori, G., additional

Published

2022

12. Core Performance and Mix in Direct-Drive Spherical Implosions on Omega

Author

Stoeckl, C., Delettrez, J. A., Epstein, R., Glebov, V. Yu., Keck, R. L., McCrory, R. L., McKenty, P. W., Marshall, F. J., Meyerhofer, D. D., Radha, P. B., Regan, S. P., Roberts, S., Seka, W., Skupsky, S., Smalyuk, V. A., Sorce, C., Soures, J. M., Town, R. P. J., Yaakobi, B., Frenje, J. A., Li, C. K., Petrasso, R. D., Seguin, F. H., Fletcher, K., Padalino, S., Freeman, C., Izumi, N., Lerche, R., Phillips, T. W., Sangster, T. C., Stott, Peter E., editor, Wootton, Alan, editor, Gorini, Giuseppe, editor, Sindoni, Elio, editor, and Batani, Dimitri, editor

Published

2002

13. Progress in Cryogenic Target Implosions on OMEGA

Author

McCrory, R L, primary, Meyerhofer, D D, additional, Betti, R, additional, Boehly, T R, additional, Craxton, R S, additional, Delettrez, J A, additional, Edgell, D H, additional, Glebov, V Yu, additional, Goncharov, V N, additional, Harding, D R, additional, Hu, S X, additional, Knauer, J P, additional, Marshall, F J, additional, McKenty, P W, additional, Radha, P B, additional, Regan, S P, additional, Sangster, T C, additional, Seka, W, additional, Short, R W, additional, Shvarts, D, additional, Skupsky, S, additional, Smalyuk, V A, additional, Soures, J M, additional, Stoeckl, C, additional, Theobald, W, additional, Yaakobi, B, additional, Frenje, J A, additional, Li, C K, additional, Petrasso, R D, additional, Séguin, F H, additional, and Casey, D T, additional

Published

2016

14. Charged-Particle Probing of X-ray-Driven Inertial-Fusion Implosions

Author

Li, C. K., Séguin, F. H., Frenje, J. A., Rosenberg, M., Petrasso, R. D., Amendt, P. A., Koch, J. A., Landen, O. L., Park, H. S., Robey, H. F., Town, R. P. J., Casner, A., Philippe, F., Betti, R., Knauer, J. P., Meyerhofer, D. D., Back, C. A., Kilkenny, J. D., and Nikroo, A.

Published

2010

15. Proton Radiography of Inertial Fusion Implosions

Author

Rygg, J. R., Séguin, F. H., Li, C. K., Frenje, J. A., Manuel, M. J.-E., Petrasso, R. D., Betti, R., Delettrez, J. A., Gotchev, O. V., Knauer, J. P., Meyerhofer, D. D., Marshall, F. J., Stoeckl, C., and Theobald, W.

Published

2008

16. In situ calibration of charged particle spectrometers on the OMEGA Laser Facility using 241Am and 226Ra sources.

Author

Adrian, P. J., Armstrong, J., Birkel, A., Chang, C., Dannhoff, S., Evans, T., Johnson, M. Gatu, Johnson, T. M., Kabadi, N., Kunimune, J., Li, C. K., Reichelt, B., Regan, S. P., Pearcy, J., Petrasso, R. D., Pien, G., McCluskey, M., Séguin, F. H., Sutcliffe, G. D., and Frenje, J. A.

Subjects

SPECTROMETERS, CALIBRATION, MAGNETIC particles, PLASMA density, LASERS

Abstract

Charged particle spectrometry is a critical diagnostic to study inertial-confinement-fusion plasmas and high energy density plasmas. The OMEGA Laser Facility has two fixed magnetic charged particle spectrometers (CPSs) to measure MeV-ions. In situ calibration of these spectrometers was carried out using 241Am and 226Ra alpha emitters. The alpha emission spectrum from the sources was measured independently using surface-barrier detectors (SBDs). The energy dispersion and broadening of the CPS systems were determined by comparing the CPS measured alpha spectrum to that of the SBD. The calibration method significantly constrains the energy dispersion, which was previously obtained through the measurement of charged particle fusion products. Overall, a small shift of 100 keV was observed between previous and the calibration done in this work. [ABSTRACT FROM AUTHOR]

Published

2022

17. T–T Neutron Spectrum from Inertial Confinement Implosions

Author

Bacher, A. D., Casey, D. T., Frenje, J. A., Gatu Johnson, M. J., Manuel, M., Sinenian, N., Zylstra, A. B., Séguin, F. H., Li, C. K., Petrasso, R. D., Glebov, V. Yu, Radha, P. B., Meyerhofer, D. D., Sangster, T. C., McNabb, D. P., Amendt, P. A., Boyd, R. N., Caggiano, J. A., Hatchett, S. P., Pino, J. E., Quaglioni, S., Rygg, J. R., Thompson, I. J., Herrmann, H. W., and Kim, Y. H.

Published

2013

18. Extension of charged-particle spectrometer capabilities for diagnosing implosions on OMEGA, Z, and the NIF

Author

Lahmann, B., primary, Johnson, M. Gatu, additional, Frenje, J. A., additional, Birkel, A. J., additional, Adrian, P. J., additional, Kabadi, N., additional, Kunimune, J. H., additional, Johnson, T. M., additional, Pearcy, J. A., additional, Reichelt, B. L., additional, Séguin, F. H., additional, Sutcliffe, G., additional, and Petrasso, R. D., additional

Published

2021

19. Thermal decoupling of deuterium and tritium during the inertial confinement fusion shock-convergence phase

Author

Kabadi, N. V., primary, Simpson, R., additional, Adrian, P. J., additional, Bose, A., additional, Frenje, J. A., additional, Gatu Johnson, M., additional, Lahmann, B., additional, Li, C. K., additional, Parker, C. E., additional, Séguin, F. H., additional, Sutcliffe, G. D., additional, Petrasso, R. D., additional, Atzeni, S., additional, Eriksson, J., additional, Forrest, C., additional, Fess, S., additional, Glebov, V. Yu, additional, Janezic, R., additional, Mannion, O. M., additional, Rinderknecht, H. G., additional, Rosenberg, M. J., additional, Stoeckl, C., additional, Kagan, G., additional, Hoppe, M., additional, Luo, R., additional, Schoff, M., additional, Shuldberg, C., additional, Sio, H. W., additional, Sanchez, J., additional, Hopkins, L. Berzak, additional, Schlossberg, D., additional, Hahn, K., additional, and Yeamans, C., additional

Published

2021

20. An x-ray penumbral imager for measurements of electron–temperature profiles in inertial confinement fusion implosions at OMEGA

Author

Adrian, P. J., primary, Frenje, J., additional, Aguirre, B., additional, Bachmann, B., additional, Birkel, A., additional, Johnson, M. Gatu, additional, Kabadi, N. V., additional, Lahmann, B., additional, Li, C. K., additional, Mannion, O. M., additional, Martin, W., additional, Mohamed, Z. L., additional, Regan, S. P., additional, Rinderknecht, H. G., additional, Scheiner, B., additional, Schmitt, M. J., additional, Séguin, F. H., additional, Shah, R. C., additional, Sio, H., additional, Sorce, C., additional, Sutcliffe, G. D., additional, and Petrasso, R. D., additional

Published

2021

21. Progress in direct-drive inertial confinement fusion research at the laboratory for laser energetics

Author

McCrory, R. L., Meyerhofer, D. D., Loucks, S. J., Skupsky, S., Betti, R., Boehly, T. R., Collins, T. J.B., Craxton, R. S., Delettrez, J. A., Edgell, D. H., Epstein, R., Fletcher, K. A., Freeman, C., Frenje, J. A., Glebov, V. Yu., Goncharov, V. N., Harding, D. R., Igumenshchev, I. V., Keck, R. L., Kilkenny, J. D., Knauer, J. P., Li, C. K., Marciante, J., Marozas, J. A., Marshall, F. J., Maximov, A. V., McKenty, P. W., Morse, S. F.B., Myatt, J., Padalino, S., Petrasso, R. D., Radha, P. B., Regan, S. P., Sangster, T. C., Séguin, F. H., Seka, W., Smalyuk, V. A., Soures, J. M., Stoeckl, C., Yaakobi, B., and Zuegel, J. D.

Published

2007

22. Direct-Drive Inertial Confinement Fusion Implosions on Omega

Author

Regan, S. P., Sangster, T. C., Meyerhofer, D. D., Anderson, K., Betti, R., Boehly, T. R., Collins, T. J. B., Craxton, R. S., Delettrez, J. A., Epstein, R., Gotchev, O. V., Glebov, V. Yu., Goncharov, V. N., Harding, D. R., Jaanimagi, P. A., Knauer, J. P., Loucks, S. J., Lund, L. D., Marozas, J. A., Marshall, F. J., Mccrory, R. L., Mckenty, P. W., Morse, S. F. B., Radha, P. B., Seka, W., Skupsky, S., Sawada, H., Smalyuk, V. A., Soures, J. M., Stoeckl, C., Yaakobi, B., Frenje, J. A., Li, C. K., Petrasso, R. D., and SÉguin, F. H.

Published

2005

23. A second order yield-temperature relation for accurate inference of burn-averaged quantities in multi-species plasmas

Author

Kabadi, N. V., primary, Adrian, P. J., additional, Bose, A., additional, Casey, D. T., additional, Frenje, J. A., additional, Gatu Johnson, M., additional, Lahmann, B., additional, Mannion, O. M., additional, Petrasso, R. D., additional, Rinderknecht, H. G., additional, Séguin, F. H., additional, Sio, H. W., additional, Sutcliffe, G. D., additional, and Zylstra, A. B., additional

Published

2021

24. Using millimeter-sized carbon–deuterium foils for high-precision deuterium–tritium neutron spectrum measurements in direct-drive inertial confinement fusion at the OMEGA laser facility

Author

Gatu Johnson, M., primary, Aguirre, B., additional, Armstrong, J., additional, Fooks, J. A., additional, Forrest, C., additional, Frenje, J. A., additional, Glebov, V. Yu., additional, Hoppe, M., additional, Katz, J., additional, Knauer, J. P., additional, Martin, W., additional, Parker, C. E., additional, Reynolds, H. G., additional, Schoff, M. E., additional, Séguin, F. H., additional, Sorce, C., additional, Sperry, B., additional, Stoeckl, C., additional, and Petrasso, R. D., additional

Published

2021

25. A neutron recoil-spectrometer for measuring yield and determining liner areal densities at the Z facility

Author

Lahmann, B., primary, Gatu Johnson, M., additional, Hahn, K. D., additional, Frenje, J. A., additional, Ampleford, D. J., additional, Jones, B., additional, Mangan, M. A., additional, Maurer, A., additional, Ruiz, C. L., additional, Séguin, F. H., additional, and Petrasso, R. D., additional

Published

2020

26. CR-39 nuclear track detector response to inertial confinement fusion relevant ions

Author

Lahmann, B., primary, Gatu Johnson, M., additional, Frenje, J. A., additional, Glebov, Y. Yu., additional, Rinderknecht, H. G., additional, Séguin, F. H., additional, Sutcliffe, G., additional, and Petrasso, R. D., additional

Published

2020

27. Impact of stalk on directly driven inertial confinement fusion implosions

Author

Gatu Johnson, M., primary, Adrian, P. J., additional, Anderson, K. S., additional, Appelbe, B. D., additional, Chittenden, J. P., additional, Crilly, A. J., additional, Edgell, D., additional, Forrest, C. J., additional, Frenje, J. A., additional, Glebov, V. Yu., additional, Haines, B. M., additional, Igumenshchev, I., additional, Jacobs-Perkins, D., additional, Janezic, R., additional, Kabadi, N. V., additional, Knauer, J. P., additional, Lahmann, B., additional, Mannion, O. M., additional, Marshall, F. J., additional, Michel, T., additional, Séguin, F. H., additional, Shah, R., additional, Stoeckl, C., additional, Walsh, C. A., additional, and Petrasso, R. D., additional

Published

2020

28. Shock timing on the National Ignition Facility: The first precision tuning series

Author

Robey H.F., Celliers P.M., Kline J.L., Mackinnon A.J., Boehly T.R., Landen O.L., Eggert J.H., Hicks D., Pape S. Le, Farley D.R., Bowers M.W., Krauter K.G., Munro D.H., Jones O.S., Milovich J.L., Clark D., Spears B.K., Town R.P. J., Haan S. W., Dixit S., Schneider M.B., Dewald E.L., Widmann K., Moody J.D., Döppner T., Radousky H.B., Nikroo A., Kroll J.J., Hamza A.V., Horner J.B., Bhandarkar S.D., Dzenitis E., Alger E., Giraldez E., Castro C., Moreno K., Haynam C., LaFortune K.N., Widmayer C., Shaw M., Jancaitis K., Parham T., Holunga D.M., Walters C.F., Haid B., Malsbury T., Trummer D., Coffee K.R., Burr B., Berzins L.V., Choate C., Brereton S.J., Azevedo S., Chandrasekaran H., Glenzer S., Caggiano J.A., Knauer J.P., Frenje J.A., Casey D.T., Johnson M. Gatu, Séguin F. H., Young B.K., Edwards M.J., Wonterghem B.M. Van, Kilkenny J., MacGowan B.J., Atherton L.J., Lindl J.D., Meyerhofer D.D., and Moses E.

Subjects

Physics, QC1-999

Abstract

Ignition implosions on the National Ignition Facility (NIF) [Lindl et al., Phys. Plasmas 11, 339 (2004)] are driven with a very carefully tailored sequence of four shock waves that must be timed to very high precision in order to keep the fuel on a low adiabat. The first series of precision tuning experiments on NIF have been performed. These experiments use optical diagnostics to directly measure the strength and timing of all four shocks inside the hohlraum-driven, cryogenic deuterium-filled capsule interior. The results of these experiments are presented demonstrating a significant decrease in the fuel adiabat over previously un-tuned implosions. The impact of the improved adiabat on fuel compression is confirmed in related deuterium-tritium (DT) layered capsule implosions by measurement of fuel areal density (ρR), which show the highest fuel compression (ρR ∼ 1.0 g/cm2) measured to date.

Published

2013

29. Response of a lead-free borosilicate-glass microchannel plate to 14-MeV neutrons and γ-rays

Author

Parker, C. E., primary, Frenje, J. A., additional, Siegmund, O. H. W., additional, Forrest, C. J., additional, Glebov, V. Yu., additional, Kendrick, J. D., additional, Wink, C. W., additional, Johnson, M. Gatu, additional, Hilsabeck, T. J., additional, Ivancic, S. T., additional, Katz, J., additional, Kilkenny, J. D., additional, Lahmann, B., additional, Li, C. K., additional, Séguin, F. H., additional, Sorce, C. M., additional, Trosseille, C., additional, and Petrasso, R. D., additional

Published

2019

30. Experimental Validation of Low- Z Ion-Stopping Formalisms around the Bragg Peak in High-Energy-Density Plasmas

Author

Frenje, J. A., primary, Florido, R., additional, Mancini, R., additional, Nagayama, T., additional, Grabowski, P. E., additional, Rinderknecht, H., additional, Sio, H., additional, Zylstra, A., additional, Gatu Johnson, M., additional, Li, C. K., additional, Séguin, F. H., additional, Petrasso, R. D., additional, Glebov, V. Yu, additional, and Regan, S. P., additional

Published

2019

31. Impact of imposed mode 2 laser drive asymmetry on inertial confinement fusion implosions

Author

Gatu Johnson, M., primary, Appelbe, B. D., additional, Chittenden, J. P., additional, Crilly, A., additional, Delettrez, J., additional, Forrest, C., additional, Frenje, J. A., additional, Glebov, V. Yu., additional, Grimble, W., additional, Haines, B. M., additional, Igumenshchev, I. V., additional, Janezic, R., additional, Knauer, J. P., additional, Lahmann, B., additional, Marshall, F. J., additional, Michel, T., additional, Séguin, F. H., additional, Stoeckl, C., additional, Walsh, C., additional, Zylstra, A. B., additional, and Petrasso, R. D., additional

Published

2019

32. Impact of asymmetries on fuel performance in inertial confinement fusion

Author

Gatu Johnson, M., primary, Appelbe, B. D., additional, Chittenden, J. P., additional, Delettrez, J., additional, Forrest, C., additional, Frenje, J. A., additional, Glebov, V. Yu., additional, Grimble, W., additional, Haines, B. M., additional, Igumenshchev, I., additional, Janezic, R., additional, Knauer, J. P., additional, Lahmann, B., additional, Marshall, F. J., additional, Michel, T., additional, Séguin, F. H., additional, Stoeckl, C., additional, Walsh, C., additional, Zylstra, A. B., additional, and Petrasso, R. D., additional

Published

2018

33. Implementation of the foil-on-hohlraum technique for the magnetic recoil spectrometer for time-resolved neutron measurements at the National Ignition Facility

Author

Parker, C. E., primary, Frenje, J. A., additional, Johnson, M. Gatu, additional, Schlossberg, D. J., additional, Reynolds, H. G., additional, Hopkins, L. Berzak, additional, Bionta, R., additional, Casey, D. T., additional, Felker, S. J., additional, Hilsabeck, T. J., additional, Kilkenny, J. D., additional, Li, C. K., additional, Mackinnon, A. J., additional, Robey, H., additional, Schoff, M. E., additional, Séguin, F. H., additional, Wink, C. W., additional, and Petrasso, R. D., additional

Published

2018

34. Measurement of apparent ion temperature using the magnetic recoil spectrometer at the OMEGA laser facility

Author

Gatu Johnson, M., primary, Katz, J., additional, Forrest, C., additional, Frenje, J. A., additional, Glebov, V. Yu., additional, Li, C. K., additional, Paguio, R., additional, Parker, C. E., additional, Robillard, C., additional, Sangster, T. C., additional, Schoff, M., additional, Séguin, F. H., additional, Stoeckl, C., additional, and Petrasso, R. D., additional

Published

2018

35. Optimization of a high-yield, low-areal-density fusion product source at the National Ignition Facility with applications in nucleosynthesis experiments

Author

Gatu Johnson, M., primary, Casey, D. T., additional, Hohenberger, M., additional, Zylstra, A. B., additional, Bacher, A., additional, Brune, C. R., additional, Bionta, R. M., additional, Craxton, R. S., additional, Ellison, C. L., additional, Farrell, M., additional, Frenje, J. A., additional, Garbett, W., additional, Garcia, E. M., additional, Grim, G. P., additional, Hartouni, E., additional, Hatarik, R., additional, Herrmann, H. W., additional, Hohensee, M., additional, Holunga, D. M., additional, Hoppe, M., additional, Jackson, M., additional, Kabadi, N., additional, Khan, S. F., additional, Kilkenny, J. D., additional, Kohut, T. R., additional, Lahmann, B., additional, Le, H. P., additional, Li, C. K., additional, Masse, L., additional, McKenty, P. W., additional, McNabb, D. P., additional, Nikroo, A., additional, Parham, T. G., additional, Parker, C. E., additional, Petrasso, R. D., additional, Pino, J., additional, Remington, B., additional, Rice, N. G., additional, Rinderknecht, H. G., additional, Rosenberg, M. J., additional, Sanchez, J., additional, Sayre, D. B., additional, Schoff, M. E., additional, Shuldberg, C. M., additional, Séguin, F. H., additional, Sio, H., additional, Walters, Z. B., additional, and Whitley, H. D., additional

Published

2018

36. Proton Spectra from He3+T and He3+He3 Fusion at Low Center-of-Mass Energy, with Potential Implications for Solar Fusion Cross Sections

Author

Zylstra, A. B., primary, Frenje, J. A., additional, Gatu Johnson, M., additional, Hale, G. M., additional, Brune, C. R., additional, Bacher, A., additional, Casey, D. T., additional, Li, C. K., additional, McNabb, D., additional, Paris, M., additional, Petrasso, R. D., additional, Sangster, T. C., additional, Sayre, D. B., additional, and Séguin, F. H., additional

Published

2017

37. Development of an inertial confinement fusion platform to study charged-particle-producing nuclear reactions relevant to nuclear astrophysics

Author

Gatu Johnson, M., primary, Zylstra, A. B., additional, Bacher, A., additional, Brune, C. R., additional, Casey, D. T., additional, Forrest, C., additional, Herrmann, H. W., additional, Hohenberger, M., additional, Sayre, D. B., additional, Bionta, R. M., additional, Bourgade, J.-L., additional, Caggiano, J. A., additional, Cerjan, C., additional, Craxton, R. S., additional, Dearborn, D., additional, Farrell, M., additional, Frenje, J. A., additional, Garcia, E. M., additional, Glebov, V. Yu., additional, Hale, G., additional, Hartouni, E. P., additional, Hatarik, R., additional, Hohensee, M., additional, Holunga, D. M., additional, Hoppe, M., additional, Janezic, R., additional, Khan, S. F., additional, Kilkenny, J. D., additional, Kim, Y. H., additional, Knauer, J. P., additional, Kohut, T. R., additional, Lahmann, B., additional, Landoas, O., additional, Li, C. K., additional, Marshall, F. J., additional, Masse, L., additional, McEvoy, A., additional, McKenty, P., additional, McNabb, D. P., additional, Nikroo, A., additional, Parham, T. G., additional, Paris, M., additional, Petrasso, R. D., additional, Pino, J., additional, Radha, P. B., additional, Remington, B., additional, Rinderknecht, H. G., additional, Robey, H., additional, Rosenberg, M. J., additional, Rosse, B., additional, Rubery, M., additional, Sangster, T. C., additional, Sanchez, J., additional, Schmitt, M., additional, Schoff, M., additional, Séguin, F. H., additional, Seka, W., additional, Sio, H., additional, Stoeckl, C., additional, and Tipton, R. E., additional

Published

2017

38. High-resolution measurements of the DT neutron spectrum using new CD foils in the Magnetic Recoil neutron Spectrometer (MRS) on the National Ignition Facility

Author

Gatu Johnson, M., primary, Frenje, J. A., additional, Bionta, R. M., additional, Casey, D. T., additional, Eckart, M. J., additional, Farrell, M. P., additional, Grim, G. P., additional, Hartouni, E. P., additional, Hatarik, R., additional, Hoppe, M., additional, Kilkenny, J. D., additional, Li, C. K., additional, Petrasso, R. D., additional, Reynolds, H. G., additional, Sayre, D. B., additional, Schoff, M. E., additional, Séguin, F. H., additional, Skulina, K., additional, and Yeamans, C. B., additional

Published

2016

39. A novel method to recover DD fusion proton CR-39 data corrupted by fast ablator ions at OMEGA and the National Ignition Facility

Author

Sutcliffe, G. D., primary, Milanese, L. M., additional, Orozco, D., additional, Lahmann, B., additional, Gatu Johnson, M., additional, Séguin, F. H., additional, Sio, H., additional, Frenje, J. A., additional, Li, C. K., additional, Petrasso, R. D., additional, Park, H.-S., additional, Rygg, J. R., additional, Casey, D. T., additional, Bionta, R., additional, Turnbull, D. P., additional, Huntington, C. M., additional, Ross, J. S., additional, Zylstra, A. B., additional, Rosenberg, M. J., additional, and Glebov, V. Yu., additional

Published

2016

40. Signal and background considerations for the MRSt on the National Ignition Facility (NIF)

Author

Wink, C. W., primary, Frenje, J. A., additional, Hilsabeck, T. J., additional, Bionta, R., additional, Khater, H. Y., additional, Gatu Johnson, M., additional, Kilkenny, J. D., additional, Li, C. K., additional, Séguin, F. H., additional, and Petrasso, R. D., additional

Published

2016

41. The magnetic recoil spectrometer (MRSt) for time-resolved measurements of the neutron spectrum at the National Ignition Facility (NIF)

Author

Frenje, J. A., primary, Hilsabeck, T. J., additional, Wink, C. W., additional, Bell, P., additional, Bionta, R., additional, Cerjan, C., additional, Gatu Johnson, M., additional, Kilkenny, J. D., additional, Li, C. K., additional, Séguin, F. H., additional, and Petrasso, R. D., additional

Published

2016

42. Proton pinhole imaging on the National Ignition Facility

Author

Zylstra, A. B., primary, Park, H.-S., additional, Ross, J. S., additional, Fiuza, F., additional, Frenje, J. A., additional, Higginson, D. P., additional, Huntington, C., additional, Li, C. K., additional, Petrasso, R. D., additional, Pollock, B., additional, Remington, B., additional, Rinderknecht, H. G., additional, Ryutov, D., additional, Séguin, F. H., additional, Turnbull, D., additional, and Wilks, S. C., additional

Published

2016

43. Application of the coincidence counting technique to DD neutron spectrometry data at the NIF, OMEGA, and Z

Author

Lahmann, B., primary, Milanese, L. M., additional, Han, W., additional, Gatu Johnson, M., additional, Séguin, F. H., additional, Frenje, J. A., additional, Petrasso, R. D., additional, Hahn, K. D., additional, and Jones, B., additional

Published

2016

44. Using Inertial Fusion Implosions to Measure theT+He3Fusion Cross Section at Nucleosynthesis-Relevant Energies

Author

Zylstra, A. B., primary, Herrmann, H. W., additional, Johnson, M. Gatu, additional, Kim, Y. H., additional, Frenje, J. A., additional, Hale, G., additional, Li, C. K., additional, Rubery, M., additional, Paris, M., additional, Bacher, A., additional, Brune, C. R., additional, Forrest, C., additional, Glebov, V. Yu., additional, Janezic, R., additional, McNabb, D., additional, Nikroo, A., additional, Pino, J., additional, Sangster, T. C., additional, Séguin, F. H., additional, Seka, W., additional, Sio, H., additional, Stoeckl, C., additional, and Petrasso, R. D., additional

Published

2016

45. Development of a WDM platform for charged-particle stopping experiments

Author

Zylstra, A B, primary, Frenje, J A, additional, Grabowski, P E, additional, Li, C K, additional, Collins, G W, additional, Fitzsimmons, P, additional, Glenzer, S, additional, Graziani, F, additional, Hansen, S B, additional, Hu, S X, additional, Johnson, M Gatu, additional, Keiter, P, additional, Reynolds, H, additional, Rygg, J R, additional, Séguin, F H, additional, and Petrasso, R D, additional

Published

2016

46. Kinetic studies of ICF implosions

Author

Kagan, Grigory, primary, Herrmann, H. W., additional, Kim, Y.-H., additional, Schmitt, M. J., additional, Hakel, P., additional, Hsu, S. C., additional, Hoffman, N. M., additional, Svyatsky, D., additional, Baalrud, S. D., additional, Daligault, J. O., additional, Sio, H., additional, Zylstra, A. B., additional, Rosenberg, M. J., additional, Rinderknecht, H. G., additional, Johnson, M. Gatu, additional, Frenje, J. A., additional, Séguin, F. H., additional, Li, C. K., additional, Petrasso, R. D., additional, Albright, B. J., additional, Taitano, W., additional, Kyrala, G.A., additional, Bradley, P. A., additional, Huang, C.-K., additional, McDevitt, C. J., additional, Chacon, L., additional, Srinivasan, B., additional, McEvoy, A. M., additional, Joshi, T. R., additional, and Adams, C. S., additional

Published

2016

47. Effects of fuel-capsule shimming and drive asymmetry on inertial-confinement-fusion symmetry and yield

Author

Séguin, F. H., primary, Li, C. K., additional, DeCiantis, J. L., additional, Frenje, J. A., additional, Rygg, J. R., additional, Petrasso, R. D., additional, Marshall, F. J., additional, Smalyuk, V., additional, Glebov, V. Yu., additional, Knauer, J. P., additional, Sangster, T. C., additional, Kilkenny, J. D., additional, and Nikroo, A., additional

Published

2016

48. Polar-direct-drive experiments with contoured-shell targets on OMEGA

Author

Marshall, F. J., primary, Radha, P. B., additional, Bonino, M. J., additional, Delettrez, J. A., additional, Epstein, R., additional, Glebov, V. Yu., additional, Harding, D. R., additional, Stoeckl, C., additional, Frenje, J. A., additional, Gatu Johnson, M., additional, Séguin, F. H., additional, Sio, H., additional, Zylstra, A., additional, and Giraldez, E., additional

Published

2016

49. Ion-kinetic simulations of D-3He gas-filled inertial confinement fusion target implosions with moderate to large Knudsen number

Author

Larroche, O., primary, Rinderknecht, H. G., additional, Rosenberg, M. J., additional, Hoffman, N. M., additional, Atzeni, S., additional, Petrasso, R. D., additional, Amendt, P. A., additional, and Séguin, F. H., additional

Published

2016

50. Impact of x-ray dose on track formation and data analysis for CR-39-based proton diagnostics

Author

Rinderknecht, H. G., primary, Rojas-Herrera, J., additional, Zylstra, A. B., additional, Frenje, J. A., additional, Gatu Johnson, M., additional, Sio, H., additional, Sinenian, N., additional, Rosenberg, M. J., additional, Li, C. K., additional, Séguin, F. H., additional, Petrasso, R. D., additional, Filkins, T., additional, Steidle, Jeffrey A., additional, Steidle, Jessica A., additional, Traynor, N., additional, and Freeman, C., additional

Published

2015