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1. Cross-beam energy transfer in conditions relevant to direct-drive implosions on OMEGA

Author

Nguyen, K. L., Yin, L., Albright, B. J., Edgell, D. H., Follett, R. K., Turnbull, D., Froula, D. H., and Palastro, J. P.

Subjects
Physics - Plasma Physics, Physics - Computational Physics
Abstract

In cross-beam energy transfer (CBET), the interference of two laser beams ponderomotively drives an ion-acoustic wave that coherently scatters light from one beam into the other. This redirection of laser beam energy can severely inhibit the performance of direct-drive inertial confinement fusion (ICF) implosions. To assess the role of nonlinear and kinetic processes in direct-drive-relevant CBET, the energy transfer between two laser beams in the plasma conditions of an ICF implosion at the OMEGA laser facility was modeled using particle-in-cell simulations. For typical laser beam intensities, the simulations are in excellent agreement with linear kinetic theory, indicating that nonlinear processes do not play a role in direct-drive implosions. At higher intensities, CBET can be modified by pump depletion, backward stimulated Raman scattering, or ion trapping, depending on the plasma density.

Published
2023
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2. Infuence of mass ablation on ignition and burn propagation in layered fusion capsules

Author

Daughton, W., Albright, B. J., Finnegan, S. M., Haines, Brian M., Kline, J. L., Sauppe, J. P., and Smidt, J. M.

Subjects
Physics - Plasma Physics
Abstract

After decades of research, recent laser-driven inertial fusion experiments have demonstrated rapid progress toward achieving thermonuclear ignition using capsule designs with cryogenic fuel layers. The ignition physics for these layered capsules involves a complex interplay between the dynamically forming hot spot and the dense surrounding fuel. Using analytic theory and numerical simulations, we demonstrate that the mass ablation rate into the hot spot depends sensitively upon the temperature of the dense fuel, resulting in ablative inflows up to ~4x faster than previous estimates. This produces an enthalpy flux into the hot spot that plays a critical role in controlling the hot spot temperature, the ignition threshold, and the subsequent burn propagation. The net influence of mass ablation on the ignition threshold is regulated by a dimensionless parameter that depends upon the temperature of the dense fuel. As a consequence, the ignition threshold is sensitive to any mechanism that heats the dense fuel, such as neutrons or radiation emitted from the hot spot. These predictions are confirmed using radiation hydrodynamic simulations for a series of capsules near ignition conditions. This analysis may have relevance for understanding the variable performance of recent experiments and for guiding new capsule designs toward higher fusion yields., Comment: 12 pages, 9 figures

Published
2022
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3. Cross-beam energy transfer saturation by ion trapping-induced detuning

Author

Nguyen, K. L., Yin, L., Albright, B. J., Hansen, A. M., Froula, D. H., Turnbull, D., Follett, R. K., and Palastro, J. P.

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

The performance of direct-drive inertial confinement fusion implosions relies critically on the coupling of laser energy to the target plasma. Cross-beam energy transfer (CBET), the resonant exchange of energy between intersecting laser beams mediated by ponderomotively driven ion-acoustic waves (IAW), inhibits this coupling by scattering light into unwanted directions. The variety of beam intersection angles and varying plasma conditions in an implosion results in IAWs with a range of phase velocities. Here we show that CBET saturates through a resonance detuning that depends on the IAW phase velocity and that results from trapping-induced modifications to the ion distribution functions. For smaller phase velocities, the modifications to the distribution functions can rapidly thermalize in the presence of mid-Z ions, leading to a blueshift in the resonant frequency. For larger phase velocities, the modifications can persist, leading to a redshift in the resonant frequency. Ultimately, these results may reveal pathways towards CBET mitigation and inform reduced models for radiation hydrodynamics codes to improve their predictive capability.

Published
2021
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4. Creating QED Photon Jets with Present-Day Lasers

Author

Luedtke, Scott V., Yin, Lin, Labun, Lance A., Labun, Ou Z., Albright, B. J., Bird, Robert F., Nystrom, W. D., and Hegelich, Björn Manuel

Subjects
Physics - Plasma Physics
Abstract

Large-scale, relativistic particle-in-cell simulations with quantum electrodynamics (QED) models show that high energy (1$

Published
2020
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5. Laser-Plasma Interactions Enabled by Emerging Technologies

Author

Palastro, J. P., Albert, F., Albright, B., Antonsen Jr., T. M., Arefiev, A., Bates, J., Berger, R., Bromage, J., Campbell, M., Chapman, T., Chowdhury, E., Colaïtis, A., Dorrer, C., Esarey, E., Fiúza, F., Fisch, N., Follett, R., Froula, D., Glenzer, S., Gordon, D., Haberberger, D., Hegelich, B. M., Jones, T., Kaganovich, D., Krushelnick, K., Michel, P., Milchberg, H., Moloney, J., Mori, W., Myatt, J., Nilson, P., Obenschain, S., Peebles, J., Peñano, J., Richardson, M., Rinderknecht, H., Rocca, J., Schmitt, A., Schroeder, C., Shaw, J., Silva, L., Strozzi, D., Suckewer, S., Thomas, A., Tsung, F., Turnbull, D., Umstadter, D., Vieira, J., Weaver, J., Wei, M., Wilks, S., Willingale, L., Yin, L., and Zuegel, J.

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

An overview from the past and an outlook for the future of fundamental laser-plasma interactions research enabled by emerging laser systems.

Published
2019

6. Laser-Plasma Interactions Enabled by Emerging Technologies

Author

Palastro, JP, Albert, F, Albright, B, Jr, TM Antonsen, Arefiev, A, Bates, J, Berger, R, Bromage, J, Campbell, M, Chapman, T, Chowdhury, E, Colaïtis, A, Dorrer, C, Esarey, E, Fiúza, F, Fisch, N, Follett, R, Froula, D, Glenzer, S, Gordon, D, Haberberger, D, Hegelich, BM, Jones, T, Kaganovich, D, Krushelnick, K, Michel, P, Milchberg, H, Moloney, J, Mori, W, Myatt, J, Nilson, P, Obenschain, S, Peebles, J, Peñano, J, Richardson, M, Rinderknecht, H, Rocca, J, Schmitt, A, Schroeder, C, Shaw, J, Silva, L, Strozzi, D, Suckewer, S, Thomas, A, Tsung, F, Turnbull, D, Umstadter, D, Vieira, J, Weaver, J, Wei, M, Wilks, S, Willingale, L, Yin, L, and Zuegel, J

Subjects
physics.plasm-ph, physics.optics
Abstract

An overview from the past and an outlook for the future of fundamentallaser-plasma interactions research enabled by emerging laser systems.

Published
2019

7. Uniform heating of materials into the warm dense matter regime with laser-driven quasi-monoenergetic ion beams

Author

Bang, W., Albright, B. J., Bradley, P. A., Vold, E. L., Boettger, J. C., and Fernández, J. C.

Subjects
Physics - Plasma Physics
Abstract

In a recent experiment on the Trident laser facility, a laser-driven beam of quasi-monoenergetic aluminum ions was used to heat solid gold and diamond foils isochorically to 5.5 eV and 1.7 eV, respectively. Here theoretical calculations are presented that suggest the gold and diamond were heated uniformly by these laser-driven ion beams. According to calculations and SESAME equation-of-state tables, laser-driven aluminum ion beams achievable on Trident, with a finite energy spread of (delta E)/E ~ 20%, are expected to heat the targets more uniformly than a beam of 140 MeV aluminum ions with zero energy spread. The robustness of the expected heating uniformity relative to the changes in the incident ion energy spectra is evaluated, and expected plasma temperatures of various target materials achievable with the current experimental platform are presented., Comment: 18 pages, 8 figures

Published
2015
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8. Finite grid instability and spectral fidelity of the electrostatic Particle-In-Cell algorithm

Author

Huang, C. -K., Zeng, Y., Wang, Y., Meyers, M. D., Yi, S., and Albright, B. J.

Subjects
Physics - Plasma Physics
Abstract

The origin of the Finite Grid Instability (FGI) is studied by resolving the dynamics in the 1D electrostatic Particle-In-Cell (PIC) model in spectral domain at the single particle level and at the collective motion level. The spectral fidelity of the PIC model is contrasted with the underlying physical system or the gridless model. The systematic spectral phase and amplitude errors from the charge deposition and field interpolation are quantified for common particle shapes used in the PIC models. It is shown through such analysis and in simulations that the lack of spectral fidelity relative to the physical system due to the existence of aliased spatial modes is the major cause of the FGI in the PIC model.

Published
2015
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9. Reduced-order model to approximate response matrices for filter stack spectrometers.

Author

Wong, C.-S., Luedtke, S. V., Broughton, D. P., Strehlow, J., Alvarado Alvarez, M., Bogale, A., Huang, C.-K., Wolfe, B., Schmidt, T. R., Reinovsky, R. E., Albright, B. J., Batha, S. H., and Palaniyappan, S.

Subjects
REDUCED-order models, ELECTRON scattering, MACHINE learning, SPECTROMETERS, DATA analysis
Abstract

We present a reduced-order model to calculate response matrices rapidly for filter stack spectrometers (FSSs). The reduced-order model allows response matrices to be built modularly from a set of pre-computed photon and electron transport and scattering calculations through various filter and detector materials. While these modular response matrices are not appropriate for high-fidelity analysis of experimental data, they encode sufficient physics to be used as a forward model in design optimization studies of FSSs, particularly for machine learning approaches that require sampling and testing a large number of FSS designs. [ABSTRACT FROM AUTHOR]

Published
2024
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10. On the Numerical Dispersion of Electromagnetic Particle-In-Cell Code : Finite Grid Instability

Author

Meyers, M. D., Huang, C. -K., Zeng, Y., Yi, S. A., and Albright, B. J.

Subjects
Physics - Plasma Physics, Physics - Computational Physics
Abstract

The Particle-In-Cell (PIC) method is widely used in relativistic particle beam and laser plasma modeling. However, the PIC method exhibits numerical instabilities that can render unphysical simulation results or even destroy the simulation. For electromagnetic relativistic beam and plasma modeling, the most relevant numerical instabilities are the finite grid instability and the numerical Cherenkov instability. We review the numerical dispersion relation of the electromagnetic PIC algorithm to analyze the origin of these instabilities. We rigorously derive the faithful 3D numerical dispersion of the PIC algorithm, and then specialize to the Yee FDTD scheme. In particular, we account for the manner in which the PIC algorithm updates and samples the fields and distribution function. Temporal and spatial phase factors from solving Maxwell's equations on the Yee grid with the leapfrog scheme are also explicitly accounted for. Numerical solutions to the electrostatic-like modes in the 1D dispersion relation for a cold drifting plasma are obtained for parameters of interest. In the succeeding analysis, we investigate how the finite grid instability arises from the interaction of the numerical 1D modes admitted in the system and their aliases. The most significant interaction is due critically to the correct represenation of the operators in the dispersion relation. We obtain a simple analytic expression for the peak growth rate due to this interaction., Comment: 25 pages, 6 figures

Published
2014
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11. Scaling of laser-driven ion energies in the relativistic transparent regime

Author

Jung, D., Yin, L., Albright, B. J., Gautier, D. C., Dromey, B., Shah, R., Palaniyappan, S., Letzring, S., Wu, H. -C., Shimada, T., Johnson, R. P., Habs, D., Roth, M., Fernandez, J. C., and Hegelich, B. M.

Subjects
Physics - Plasma Physics
Abstract

Laser-driven ions have compelling properties and their potential use for medical applications has attracted a huge global interest. One of the major challenges of these applications is generating beams of the required energies. To date, there has been no systematic study of the effect of laser intensity on the generation of laser-driven ions from ultrathin foils during relativistic transparency. Here we present a scaling for ion energies with respect to the on-target laser intensity and in considering target thickness we find an optimum thickness closely related to the experimentally observed relativistic transparency. A steep linear scaling with the normalized laser amplitude a0 has been measured and verified with PIC simulations. In contrast to TNSA, this scaling is much steeper and has been measured for ions with Z > 1. Following our results, ion energies exceeding 100MeV/amu are already accessible with currently available laser systems enabling realization of numerous advanced applications

Published
2014

12. 160 MeV laser-accelerated protons from CH2 nano-targets for proton cancer therapy

Author

Hegelich, B. M., Jung, D., Albright, B. J., Cheung, M., Dromey, B., Gautier, D. C., Hamilton, C., Letzring, S., Munchhausen, R., Palaniyappan, S., Shah, R., Wu, H. -C., Yin, L., and Fernández, J. C.

Subjects
Physics - Plasma Physics
Abstract

Proton (and ion) cancer therapy has proven to be an extremely effective even supe-rior method of treatment for some tumors 1-4. A major problem, however, lies in the cost of the particle accelerator facilities; high procurement costs severely limit the availability of ion radiation therapy, with only ~26 centers worldwide. Moreover, high operating costs often prevent economic operation without state subsidies and have led to a shutdown of existing facilities 5,6. Laser-accelerated proton and ion beams have long been thought of as a way out of this dilemma, with the potential to provide the required ion beams at lower cost and smaller facility footprint 7-14. The biggest challenge has been the achievement of sufficient particle energy for therapy, in the 150-250 MeV range for protons 15,16. For the last decade, the maximum exper-imentally observed energy of laser-accelerated protons has remained at ~60 MeV 17. Here we the experimental demonstration of laser-accelerated protons to energies exceeding 150 MeV, reaching the therapy window. This was achieved through a dif-ferent acceleration regime rather than a larger laser, specifically a 150 TW laser with CH2 nano-targets in the relativistically transparent regime 18,19. We also demonstrate a clear scaling law with laser intensity based on analytical theory, computer simulations and experimental validation that will enable design of a pro-totype system spanning the full range of therapeutically desirable energies., Comment: 17 pages, 4 figures

Published
2013

13. Control of Stimulated Raman Scattering in the Strongly Nonlinear and Kinetic Regime Using Spike Trains of Uneven Duration and Delay: STUD Pulses

Author

Albright, B. J., Yin, L., and Afeyan, B.

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

Stimulated Raman scattering (SRS) in its strongly nonlinear, kinetic regime is controlled by a technique of deterministic, strong temporal modulation and spatial scrambling of laser speckle patterns, called Spike Trains of Uneven Duration and Delay (STUD pulses) [B. Afeyan and S. H\"uller, Phys. Rev. Lett. (submitted)]. Kinetic simulations show that use of STUD pulses may decrease SRS reflectivity by more than an order of magnitude over random-phase-plate (RPP) or induced-spatial-incoherence (ISI) beams of the same average intensity and comparable bandwidth., Comment: 5 pages, 4 figures

Published
2013
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14. Particle Energization in 3D Magnetic Reconnection of Relativistic Pair Plasmas

Author

Liu, Wei, Li, Hui, Yin, Lin, Albright, B. J., Bowers, K. J., and Liang, E. P.

Subjects
Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics, Physics - Plasma Physics
Abstract

We present large scale 3D particle-in-cell (PIC) simulations to examine particle energization in magnetic reconnection of relativistic electron-positron (pair) plasmas. The initial configuration is set up as a relativistic Harris equilibrium without a guide field. These simulations are large enough to accommodate a sufficient number of tearing and kink modes. Contrary to the non-relativistic limit, the linear tearing instability is faster than the linear kink instability, at least in our specific parameters. We find that the magnetic energy dissipation is first facilitated by the tearing instability and followed by the secondary kink instability. Particles are mostly energized inside the magnetic islands during the tearing stage due to the spatially varying electric fields produced by the outflows from reconnection. Secondary kink instability leads to additional particle acceleration. Accelerated particles are, however, observed to be thermalized quickly. The large amplitude of the vertical magnetic field resulting from the tearing modes by the secondary kink modes further help thermalizing the non-thermal particles generated from the secondary kink instability. Implications of these results for astrophysics are briefly discussed., Comment: 25 pages, 11 figures, accepted by PoP

Published
2010
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15. Simulated signatures of ignition.

Author

Haines, Brian M., Meaney, K. D., Kuczek, J. J., Albright, B. J., Daughton, W. S., Hoffman, N. M., Lester, R. S., and Sauppe, J. P.

Subjects
INERTIAL confinement fusion, SPACE trajectories, PLASMA instabilities, IMPLOSIONS, ABLATIVE materials, NEUTRONS, AIRCRAFT cabins, PLASMA sheaths
Abstract

Ignition on the National Ignition Facility (NIF) provides a novel opportunity to evaluate past data to identify signatures of capsule failure mechanisms. We have used new simulations of high-yield implosions as well as some from past studies in order to identify unique signatures of different ignition failure mechanisms: jetting due to the presence of voids or defects, jetting due to the capsule fill tube, interfacial mixing due to instabilities or due to plasma transport, radiative cooling due to the presence of contaminant in the hot spot, long-wavelength drive asymmetry, and preheat. Many of these failure mechanisms exhibit unique trajectories that can be distinguished through variations in experimental observables such as neutron yield, down-scattered ratio (DSR), and burn width. Our simulations include capsules using both plastic and high-density carbon ablators and span all high-yield designs considered since the beginning of the National Ignition Campaign in 2011. We observe that the variability in trajectories through the space of neutron yield, DSR, and burn width varies little across capsule design yet are unique to the failure mechanism. The experimental trajectories are most consistent with simulated preheat and jetting due to voids and defects, which are the only failure mechanisms that are indistinguishable in our analysis. This suggests that improvements to capsule compression due to improved capsule quality or reduced preheat have played a primary role in enabling high yields on NIF. Furthermore, our analysis suggests that further improvements have the potential to increase yields further. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Evaluation of the relative importance of preheat from hohlraum x rays and a radiative shock on a low-density foam

Author

Kim, Y., primary, Di Stefano, C., additional, Kozlowski, P. M., additional, Murphy, T. J., additional, Haines, B. M., additional, Day, T. H., additional, Brophy, M., additional, Gunderson, M. A., additional, VanDervort, R. W., additional, Cleveland, M. A., additional, Coffman, T. A., additional, Olson, R. E., additional, Douglas, M. R., additional, Smidt, J. M., additional, Morrow, T., additional, Schmidt, D. W., additional, Albright, B. J., additional, Barnak, D. H., additional, and Widmann, K., additional

Published
2023
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20. Robust unfolding of MeV x-ray spectra from filter stack spectrometer data.

Author

Wong, C.-S., Strehlow, J., Broughton, D. P., Luedtke, S. V., Huang, C.-K., Bogale, A., Fitzgarrald, R., Nedbailo, R., Schmidt, J. L., Schmidt, T. R., Twardowski, J., Van Pelt, A., Alvarez, M. Alvarado, Junghans, A., Mix, L. T., Reinovsky, R. E., Rusby, D. R., Wang, Z., Wolfe, B., and Albright, B. J.

Subjects
MASS attenuation coefficients, SPECTROMETERS, DATA transmission systems, X-rays, X-ray spectra
Abstract

We present an inversion method capable of robustly unfolding MeV x-ray spectra from filter stack spectrometer (FSS) data without requiring an a priori specification of a spectral shape or arbitrary termination of the algorithm. Our inversion method is based upon the perturbative minimization (PM) algorithm, which has previously been shown to be capable of unfolding x-ray transmission data, albeit for a limited regime in which the x-ray mass attenuation coefficient of the filter material increases monotonically with x-ray energy. Our inversion method improves upon the PM algorithm through regular smoothing of the candidate spectrum and by adding stochasticity to the search. With these additions, the inversion method does not require a physics model for an initial guess, fitting, or user-selected termination of the search. Instead, the only assumption made by the inversion method is that the x-ray spectrum should be near a smooth curve. Testing with synthetic data shows that the inversion method can successfully recover the primary large-scale features of MeV x-ray spectra, including the number of x-rays in energy bins of several-MeV widths to within 10%. Fine-scale features, however, are more difficult to recover accurately. Examples of unfolding experimental FSS data obtained at the Texas Petawatt Laser Facility and the OMEGA EP laser facility are also presented. [ABSTRACT FROM AUTHOR]

Published
2024
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23. The dynamics, mixing, and thermonuclear burn of compressed foams with varied gas fills.

Author

Haines, Brian M., Murphy, T. J., Olson, R. E., Kim, Y., Albright, B. J., Appelbe, B., Day, T. H., Gunderson, M. A., Hamilton, C. E., Morrow, T., and Patterson, B. M.

Subjects
INERTIAL confinement fusion, RICHTMYER-Meshkov instability, NUCLEAR fusion, COLLISIONLESS plasmas, NEUTRON temperature, SHOCK waves, FOAM, ION temperature
Abstract

Inertial confinement fusion (ICF) implosions involve highly coupled physics and complex hydrodynamics that are challenging to model computationally. Due to the sensitivity of such implosions to small features, detailed simulations require accurate accounting of the geometry and dimensionality of the initial conditions, including capsule defects and engineering features such as fill tubes used to insert gas into the capsule, yet this is computationally prohibitive. It is therefore difficult to evaluate whether discrepancies between the simulation and experiment arise from inadequate fidelity to the capsule geometry and drive conditions, uncertainties in physical data used by simulations, or inadequate physics. We present results from detailed high-resolution three-dimensional simulations of ICF implosions performed as part of the MARBLE campaign on the National Ignition Facility [Albright et al., Phys. Plasmas 29, 022702 (2022)]. These experiments are foam-filled separated-reactant experiments, where deuterons reside in the foam and tritons reside in the capsule gas fill and deuterium–tritium (DT) fusion reactions only occur in the presence of mixing between these materials. Material mixing in these experiments is primarily seeded by shock interaction with the complex geometry of the foam and gas fill, which induces the Richtmyer–Meshkov instability. We compare results for experiments with two different gas fills (ArT and HT), which lead to significant differences in the hydrodynamic and thermodynamic developments of the materials in the implosion. Our simulation results show generally good agreement with experiments and demonstrate a substantial impact of hydrodynamic flows on measured ion temperatures. The results suggest that viscosity, which was not included in our simulations, is the most important unmodeled physics and qualitatively explains the few discrepancies between the simulation and experiment. The results also suggest that the hydrodynamic treatment of shocks is inadequate to predict the heating and yield produced during shock flash, when the shock converges at the center of the implosion. Alternatively, underestimation of the level of radiative preheat from the shock front could explain many of the differences between the experiment and simulation. Nevertheless, simulations are able to reproduce many experimental observables within the level of experimental reproducibility, including most yields, time-resolved X-ray self-emission images, and an increase in burn-weighted ion temperature and neutron down-scattered ratio in the line of sight that includes a jet seeded by the glue spot that joins capsule hemispheres. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Intense Laser-Driven Mev X-Ray Radiography

Author

Palaniyappan, S., primary, Gautier, D., additional, Albright, B., additional, Yin, L., additional, Stark, D., additional, Hunter, J., additional, Luedetke, S., additional, and Strehlow, J., additional

Published
2022
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29. Experimental quantification of the impact of heterogeneous mix on thermonuclear burn

Author

Albright, B. J., primary, Murphy, T. J., additional, Haines, B. M., additional, Douglas, M. R., additional, Cooley, J. H., additional, Day, T. H., additional, Denissen, N. A., additional, Di Stefano, C., additional, Donovan, P., additional, Edwards, S. L., additional, Fincke, J., additional, Green, L. M., additional, Goodwin, L., additional, Gore, R. A., additional, Gunderson, M. A., additional, Haack, J. R., additional, Hamilton, C. E., additional, Hartouni, E. P., additional, Kabadi, N. V., additional, Khan, S., additional, Kozlowski, P. M., additional, Kim, Y., additional, Lee, M. N., additional, Lester, R., additional, Morrow, T., additional, Oertel, J. A., additional, Olson, R. E., additional, Patterson, B. M., additional, Quintana, T., additional, Randolph, R. B., additional, Schmidt, D. W., additional, Shah, R. C., additional, Smidt, J. M., additional, Strickland, A., additional, Wilson, C., additional, and Yin, L., additional

Published
2022
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30. Creating QED photon jets with present-day lasers

Author

Luedtke, Scott V., primary, Yin, Lin, additional, Labun, Lance A., additional, Labun, Ou Z., additional, Albright, B. J., additional, Bird, Robert F., additional, Nystrom, W. D., additional, and Hegelich, Björn Manuel, additional

Published
2021
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34. Single and double shell ignition targets for the national ignition facility at 527 nm

Author

Wilson, D. C., primary, Spaeth, M. L., additional, Yin, L., additional, Sauppe, J. P., additional, Hopkins, L. B., additional, Loomis, E. N., additional, Sacks, R. F., additional, Albright, B. J., additional, Strozzi, D., additional, Munro, D., additional, Widmayer, C., additional, Raymond, B., additional, Manes, K., additional, and Kline, J. L., additional

Published
2021
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35. Monolithic Fabrication Concepts for a Ka-band Sheet-Beam Coupled-Cavity TWT

Author

Joye, Colin D., primary, Cook, Alan M., additional, Jaynes, Reginald L., additional, Wood, Franklin N., additional, Albright, B. Spence, additional, Rodgers, John C., additional, Pasour, John A., additional, Calame, Jeffrey P., additional, Chernyavskiy, Igor A., additional, Cooke, Simon J., additional, Vlasov, Alexander N., additional, Levush, Baruch, additional, Schipf, David R., additional, Nguyen, Khanh T., additional, Wright, Edward L., additional, and Pershing, Dean E., additional

Published
2021
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37. Laser acceleration of quasi-monoenergetic MeV ion beams

Author

Hegelich, B. M., Albright, B. J., Cobble, J., Flippo, K., Letzring, S., Paffett, M., Ruhl, H., Schreiber, J., Schulze, R. K., and Fernandez, J. C.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): B. M. Hegelich (corresponding author) [1]; B. J. Albright [1]; J. Cobble [1]; K. Flippo [1]; S. Letzring [1]; M. Paffett [1]; H. Ruhl [2, 5]; J. Schreiber [3, [...]

Published
2006
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38. Cross-Beam Energy Transfer Saturation by Ion Heating

Author

Hansen, A. M., primary, Nguyen, K. L., additional, Turnbull, D., additional, Albright, B. J., additional, Follett, R. K., additional, Huff, R., additional, Katz, J., additional, Mastrosimone, D., additional, Milder, A. L., additional, Yin, L., additional, Palastro, J. P., additional, and Froula, D. H., additional

Published
2021
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40. Experimental validation of shock propagation through a foam with engineered macro-pores

Author

Kim, Y., primary, Murphy, T. J., additional, Kozlowski, P. M., additional, Green, L. M., additional, Haines, B. M., additional, Day, T. H., additional, Cardenas, T., additional, Woods, D. N., additional, Smidt, J. M., additional, Douglas, M. R., additional, Jones, S., additional, Velechovsky, J., additional, Olson, R. E., additional, Gore, R. A., additional, and Albright, B. J., additional

Published
2021
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43. The rate of development of atomic mixing and temperature equilibration in inertial confinement fusion implosions

Author

Haines, Brian M., primary, Shah, R. C., additional, Smidt, J. M., additional, Albright, B. J., additional, Cardenas, T., additional, Douglas, M. R., additional, Forrest, C., additional, Glebov, V. Yu., additional, Gunderson, M. A., additional, Hamilton, C., additional, Henderson, K., additional, Kim, Y., additional, Lee, M. N., additional, Murphy, T. J., additional, Oertel, J. A., additional, Olson, R. E., additional, Patterson, B. M., additional, Randolph, R. B., additional, and Schmidt, D., additional

Published
2020
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48. W-band TWT Component Fabrication and Testing

Author

Cook, Alan M., primary, Wright, Edward L., additional, Nguyen, Khanh T., additional, Joye, Colin D., additional, Wood, Frank. N., additional, Albright, B. Spence, additional, Lowe, John R., additional, Jaynes, Reginald T, additional, Calame, Jeffrey P., additional, Abe, David K., additional, Kimura, Takuji, additional, and Aymar, Galen, additional

Published
2019
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