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1. Machine Learning for Detection of 3D Features using sparse X-ray data

Author

Wolfe, Bradley T., Falato, Michael J., Zhang, Xinhua, Nguyen-Fotiadis, Nga T. T., Sauppe, J. P., Kozlowski, P. M., Keiter, P. A., Reinovsky, R. E., Batha, S. A., and Wang, Zhehui

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing, Physics - Data Analysis, Statistics and Probability
Abstract

In many inertial confinement fusion experiments, the neutron yield and other parameters cannot be completely accounted for with one and two dimensional models. This discrepancy suggests that there are three dimensional effects which may be significant. Sources of these effects include defects in the shells and shell interfaces, the fill tube of the capsule, and the joint feature in double shell targets. Due to their ability to penetrate materials, X-rays are used to capture the internal structure of objects. Methods such as Computational Tomography use X-ray radiographs from hundreds of projections in order to reconstruct a three dimensional model of the object. In experimental environments, such as the National Ignition Facility and Omega-60, the availability of these views is scarce and in many cases only consist of a single line of sight. Mathematical reconstruction of a 3D object from sparse views is an ill-posed inverse problem. These types of problems are typically solved by utilizing prior information. Neural networks have been used for the task of 3D reconstruction as they are capable of encoding and leveraging this prior information. We utilize half a dozen different convolutional neural networks to produce different 3D representations of ICF implosions from the experimental data. We utilize deep supervision to train a neural network to produce high resolution reconstructions. We use these representations to track 3D features of the capsules such as the ablator, inner shell, and the joint between shell hemispheres. Machine learning, supplemented by different priors, is a promising method for 3D reconstructions in ICF and X-ray radiography in general.

Published
2022
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2. High-yield and high-angular-flux neutron generation from deuterons accelerated by laser-driven collisionless shock

Author

Huang, C. -K., Broughton, D. P., Palaniyappan, S., Junghans, A., Iliev, M., Batha, S. H., Reinovsky, R. E., and Favalli, A.

Subjects
Physics - Plasma Physics, Physics - Applied Physics
Abstract

A bright collimated neutron source is an essential tool for global security missions and fundamental scientific research. In this paper, we study a compact high-yield and high-angular-flux neutron source utilizing the break-up reaction of laser-driven deuterons in a $^9\text{Be}$ converter. The neutron generation scaling from such a reaction is used to guide the choice and optimization of the acceleration process for the bulk ions in a low density $\text{CD}_2$ foam. In particular, the collisionless shock acceleration mechanism is exploited with proper choice in the laser and target parameter space to accelerate these ions towards energies above the temperature of the distribution. Particle-In-Cell and Monte Carlo simulations are coupled to investigate this concept and possible adverse effects, as well as the contribution from the surface ions accelerated and the optimal converter design. The simulation results indicated that our design can be a practical approach to increase both the neutron yield and forward flux of laser-driven neutron sources, reaching peak angular neutron flux $>10^{11}$ neutron/sr and yield $>10^{11}$ neutron/pulse with present-day kJ-class high-power lasers. Such developments will advance fundamental neutron science, high precision radiography and other global security applications with the laser-driven sources., Comment: 21 pages, 7 figures

Published
2021
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4. Machine learning based unfolding of x-ray spectra from filter stack spectrometer data.

Author

Alvarado Alvarez, M., Wolfe, B. T., Wong, C.-S., Broughton, D. P., Huang, C.-K., Reinovsky, R. E., Wang, Z., and Batha, S. H.

Subjects
X-ray spectra, MEASUREMENT errors, DISTRIBUTION (Probability theory), MACHINE learning, SPECTROMETERS
Abstract

We demonstrate the application of neural networks to perform x-ray spectra unfolding from data collected by filter stack spectrometers. A filter stack spectrometer consists of a series of filter-detector pairs, where the detectors behind each filter measure the energy deposition through each layer as photo-stimulated luminescence (PSL). The network is trained on synthetic data, assuming x-rays of energies < 1 MeV and of two different distribution functions (Maxwellian and Gaussian) and the corresponding measured PSL values obtained from five different filter stack spectrometer designs. Predicted unfolds of single distributions are near identical reproductions of the ground truth spectra, with differences in the values lower than 20% at the higher energy end in some cases. The neural network has also demonstrated robustness to experimental measurement errors of < 5 % and some capability of performing unfolds for linear combinations of the two distributions without previous training. The network can perform unfolds at rates > 1 Hz, ideal for application to some high-repetition-rate systems. [ABSTRACT FROM AUTHOR]

Published
2024
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5. 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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6. 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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11. Vacuum Laser Acceleration of Super-ponderomotive Electrons Using Relativistic Transparency Injection

Author

Li, F.-Y., primary, Singh, P. K., additional, Huang, C.-K., additional, Moreau, A., additional, Hollinger, R., additional, Junghans, A., additional, Favalli, A., additional, Chase, C., additional, Wang, S., additional, Wang, Y., additional, Song, H., additional, Rocca, J., additional, Reinovsky, R. E., additional, and Palaniyappan, S., additional

Published
2022
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12. Rheology studies of aluminum with the use of explosive magnetic generators

Author

Vasyukov, V. A., Glybin, A. M., Duday, P. V., Dudin, V. I., Zimenkov, A. A., Ivanov, V. A., Ivanovskiy, A. V., Kraev, A. I., Kuzyaev, A. I., Nadezhin, S. S., Petrukhin, A. A., Skobelev, A. N., Tyupanova, O. A., Atchison, W. L., Griego, J. R., Holtkamp, D. B., Kaul, A. M., Reinovsky, R. E., Rodriguez, G., Tabaka, L. J., Rousculp, C. L., Stone, J. B., Oro, D. M., Salazar, M., Payton, J. R., and Westley, D. T.

Published
2013
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13. Numerical simulations of thick-aluminum-wire behavior under megaampere-current drive

Author

Garanin, S. F., Kuznetsov, S. D., Atchison, W. L., Reinovsky, R. E., Awe, T. J., Bauer, B. S., Fuelling, S., Lindemuth, I. R., and Siemon, R. E.

Subjects
Aluminum -- Electric properties, Aluminum -- Magnetic properties, Gaussian processes -- Analysis, Magnetohydrodynamics -- Analysis, Plasma devices -- Design and construction, Business, Chemistry, Electronics, Electronics and electrical industries
Published
2010

15. Compaction model validation under non-planar shock wave loading conditions

Author

Voorhees, T. J., primary, Freeman, M. S., additional, Rousculp, C. L., additional, Fredenburg, D. A., additional, Carney, T. C., additional, Bradley, J. T., additional, Donovan, P. M., additional, Fierro, F., additional, Griego, J. R., additional, Lamar, J. C., additional, Mariam, F. G., additional, Neukirch, L. P., additional, Oro, D. M., additional, Patten, A. R., additional, Randolph, R. B., additional, Reass, W. A., additional, Reinovsky, R. E., additional, Saunders, A., additional, Sjue, S. K., additional, Tang, Z., additional, and Turchi, P. J., additional

Published
2020
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16. High-yield and high-angular-fluence neutron generation from deuterons accelerated by laser-driven collisionless shock.

Author

Huang, C.-K., Broughton, D. P., Palaniyappan, S., Junghans, A., Iliev, M., Batha, S. H., Reinovsky, R. E., and Favalli, A.

Subjects
NEUTRON radiography, NEUTRONS, DEUTERONS, MONTE Carlo method, LASER pulses, NEUTRON sources, TEMPERATURE distribution
Abstract

A bright collimated neutron source is an essential tool for global security missions and fundamental scientific research. In this paper, we study a compact high-yield and high-angular-fluence neutron source particularly suitable for high-energy neutron applications utilizing the breakup reaction of laser-driven deuterons in a 9Be converter. The neutron generation scaling from such a reaction is used to guide the choice and optimization of the acceleration process for bulk ions in a low density CD2 foam. In particular, the collisionless shock acceleration mechanism is exploited with proper choice in the laser and target parameter space to accelerate these ions toward energies above the temperature of the distribution. Particle-in-cell and Monte Carlo simulations are coupled here to investigate this concept and possible adverse effects as well as the contribution from the surface ions accelerated and the optimal converter design. The simulation results indicated that our design can be a practical approach to increase both the neutron yield and angular fluence of laser-driven neutron sources, reaching >1011 neutron/pulse (or >108 neutron/J) and >1011 neutron/sr (or >108 neutron/sr/J) with present-day kJ-class high-power lasers. Such developments will advance fundamental neutron science, high precision radiography, and other global security applications with laser-driven sources. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Cylindrical Driven Shocks in Ceria

Author

Freeman, M. S., primary, Rousculp, C. L., additional, Fredenburg, D. A., additional, Bradley, J. T., additional, Donovan, P. M., additional, Dunwoody, J. T., additional, Fierro, F., additional, Griego, J. R., additional, Lamar, J. C., additional, Mariam, F. G., additional, Neukirch, L. P., additional, Oro, D. M., additional, Patten, A. R., additional, Randolph, R. B., additional, Reass, W. A., additional, Reinovsky, R. E., additional, Saunders, A., additional, Sjue, S. K., additional, Tang, Z., additional, Turchi, P. J., additional, and Voorhees, T. J., additional

Published
2018
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22. Evidence of hydrodynamic processes in multimegampere copper fuses.

Author

Lindemuth, I. R., Caird, R. S., Goforth, J. H., Oona, H., and Reinovsky, R. E.

Subjects
MAGNETIC flux, ELECTRIC currents, ELECTRIC fuses
Abstract

Presents a study which performed experiments in which an explosively formed fuse transferred a fraction of the 10 MA output current from an explosively powered magnetic flux compression generator to a conventional exploding metallic fuse load. Materials and methods used; Measurement of currents measured through the fuse load; Analysis of the hydrodynamic processes in the experiment.

Published
1990
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25. Damage growth and recollection in aluminum under axisymmetric convergence using a helical flux compression generator

Author

Kaul, A. M., primary, Ivanovsky, A. V., additional, Atchison, W. L., additional, Petrukhin, A. A., additional, Duday, P. V., additional, Griego, J. R., additional, Salazar, M., additional, Nadezhin, S. S., additional, Tyupanova, O. A., additional, Oro, D. M., additional, Holtkamp, D. B., additional, Rodriguez, G., additional, Tabaka, L. J., additional, Kraev, A. I., additional, Skobelev, A. N., additional, Westley, D. T., additional, Anderson, B. G., additional, Ivanov, V. A., additional, Glybin, A. M., additional, Kuzyaev, A. I., additional, Stone, J. B., additional, Payton, J. R., additional, Goodwin, P. M., additional, McCulloch, Q., additional, Montoya, R. R., additional, Dudin, V. I., additional, Zimenkov, A. A., additional, Randolph, R. B., additional, Fierro, F., additional, Reinovsky, R. E., additional, Rousculp, C. L., additional, Balandina, A. N., additional, and Podurets, A. M., additional

Published
2014
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26. The Phelix Liner Demonstration Experiment (PLD-1)

Author

LOS ALAMOS NATIONAL LAB NM, Rousculp, C L, Oro, D M, Reass, W A, Turchi, P J, Holtkamp, D B, Baca, D M, Griego, J R, Reinovsky, R E, Devore, D O, Graves, T E, LOS ALAMOS NATIONAL LAB NM, Rousculp, C L, Oro, D M, Reass, W A, Turchi, P J, Holtkamp, D B, Baca, D M, Griego, J R, Reinovsky, R E, Devore, D O, and Graves, T E

Abstract

The PHELIX Liner Demonstration Experiment (PLD-1) took place in September of 2010 at Los Alamos National Laboratory. The PHELIX machine consists of a 500 kJ single-marx capacitor bank cable-coupled to a toroidal 1:4 current step-up transformer which delivers multi-Mega- Ampere currents to a cm size load. In this experiment the load consisted of a 3 cm radius, 0.8 mm thick, 3 cm tall aluminum liner, copper glide planes, a thin polyethylene insulator, and a 0.5 cm thick aluminum return conductor. Two independent channels of fiber optic Faraday rotation measured a peak load current 4 MA with a pulse width of 10 s. Four linear Rogowski coils measured the output current of the 4 marx modules. High-resolution flash X-radiography imaged a stable, highly symmetric and uniform liner 14.5 s after current start. A 12 channel laser Doppler velocimetry (LDV) system tracked the inside surface of the liner throughout the experiment and showed a peak velocity before impact with probes of 1 km/s. The LDV probes were arrayed axially as well as azimuthally and confirmed the symmetry of the liner trajectory. Surprisingly, the LDV showed distribution of velocities of the inner liner surface late in time. PLD-1 is the first step towards utilizing the PHELIX pulsed-power system at the Los Alamos proton radiography facility., See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013., The original document contains color images.

Published
2011

27. The Phelix Pulsed Power Project: Bringing Portable Magnetic Drive to World Class Radiography

Author

LOS ALAMOS NATIONAL LAB NM, Rousculp, C L, Reass, W A, Oro, D M, Turchi, P J, Hollander, B J, Griego, J R, Reinovsky, R E, LOS ALAMOS NATIONAL LAB NM, Rousculp, C L, Reass, W A, Oro, D M, Turchi, P J, Hollander, B J, Griego, J R, and Reinovsky, R E

Abstract

The PHELIX pulsed power project will introduce magnetically driven hydrodynamics experiments to the Los Alamos National Laboratory s proton radiography facility (pRad). The Precision High Energy-density Liner Implosion eXperiment (PHELIX) has been commissioned at Los Alamos. A small footprint capacitor bank consisting of four parallel connected single-stage marx units (500 kJ) is cable coupled to a toroidal, current stepup transformer to deliver multi-Mega-Ampere, 10 s current pulses to cm size cylindrical loads. In a sequence of tests the performance of each component (capacitor bank and transformer) was evaluated and compared to a circuit model. The transformer coupling was observed to be k 0.93. The tests culminated in a liner implosion experiment in which an 3 cm radius, 0.8 mm thick, 3 cm tall aluminum liner was accelerated to a velocity of 1 km/s. The suite of machine diagnostics included linear Rogowski coils and Faraday rotation for current measurements. The experimental diagnostics include Bdot probes, multi-channel photon Doppler velocimetry (PDV), and single-frame, flash X-radiography to evaluate the performance of the high precision liner implosion. Currently, work is focused on integrating PHELIX into normal operations with the 800 MeV proton radiography facilities. There, high-resolution, high-frame-rate imaging of hydrodynamic experiments will be possible., See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013., The original document contains color images.

Published
2011

28. Warm Dense Matter: Another Application for Pulsed Power Hydrodynamics

Author

LOS ALAMOS NATIONAL LAB NM, Reinovsky, R E, LOS ALAMOS NATIONAL LAB NM, and Reinovsky, R E

Abstract

Pulsed Power Hydrodynamics (PPH) is an application of low-impedance pulsed power, and high magnetic field technology to the study of advanced hydrodynamic problems, instabilities, turbulence, and material properties. PPH can potentially be applied to the study of the properties of warm dense matter (WDM) as well. Exploration of the properties of warm dense matter such as equation of state, viscosity, conductivity is an emerging area of study focused on the behavior of matter at density near solid density (from 10% of solid density to slightly above solid density) and modest temperatures (1-10 eV). Conditions characteristic of WDM are difficult to obtain, and even more difficult to diagnose. One approach to producing WDM uses laser or particle beam heating of very small quantities of matter on timescales short compared to the subsequent hydrodynamic expansion timescales (isochoric heating) and a vigorous community of researchers are applying these techniques. Pulsed power hydrodynamic techniques, such as large convergence liner compression of a large volume, modest density, low temperature plasma to densities approaching solid density or through multiple shock compression and heating of normal density material between a massive, high density, energetic liner and a high density central anvil are possible ways to reach relevant conditions. Another avenue to WDM conditions is through the explosion and subsequent expansion of a conductor (wire) against a high pressure (density) gas background (isobaric expansion) techniques. However, both techniques demand substantial energy, proper power conditioning and delivery, and an understanding of the hydrodynamic and instability processes that limit each technique. In this paper we will examine the challenges to pulsed power technology and to pulsed power systems presented by the opportunity to explore this interesting region of parameter space., See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013., The original document contains color images.

Published
2009

29. Explosive Magnetic Liner Devices to Produce Shock Pressures Up to 3 Tpa

Author

LOS ALAMOS NATIONAL LAB NM, Buyko, A M, Garanin, S F, Gorbachev, Yu N, Ivanova, G G, Ivanovsky, A V, Morozova, I V, Mokhov, V N, Petrukhin, A A, Atchison, W L, Reinovsky, R E, LOS ALAMOS NATIONAL LAB NM, Buyko, A M, Garanin, S F, Gorbachev, Yu N, Ivanova, G G, Ivanovsky, A V, Morozova, I V, Mokhov, V N, Petrukhin, A A, Atchison, W L, and Reinovsky, R E

Abstract

The paper discusses devices with a Disk Explosive Magnetic flux compression Generator (DEMG), which are similar to the ALT-1,2 experimental devices and are intended for testing the possibility of producing 1-3 TPa (10-30 Mbar) pressures and the possibility of measuring Hugoniots of different materials at such pressures. It is expected that two-layer, cylindrical liners, Al+Fe and/or Al+W, will be used, driven by 4-5 MG magnetic fields to tilde 20 km/s velocities. The paper presents and discusses simulated characteristics of these devices, in which currents, energies and powers delivered to the liner load can reach tilde 70 MA, tilde 40 MJ and tilde 20 TW and exceed those in the ALT-1,2 devices by a factor of tilde 2, tilde 4 and tilde 7, respectively., See also ADM002371. Presented at the 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th), held in San Francisco, CA on 16-21 June 2013.

Published
2009

30. High performance liner physics

Author

Reinovsky, R. E., primary, Atchison, W. L., additional, Rousculp, C. R., additional, Buyko, A. M., additional, Garanin, S. F., additional, and Yakubov, V. B., additional

Published
2013
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32. Исследование реологических свойств алюминия с применением взрывомагнитных генераторов

Author

Васюков, В. А., primary, Глыбин, А. М., additional, Дудай, П. В., additional, Дудин, В. И., additional, Зименков, А. А., additional, Иванов, В. А., additional, Ивановский, А. В., additional, Краев, А. И., additional, Кузяев, А. И., additional, Надежин, С. С., additional, Петрухин, А. А., additional, Скобелев, А. Н., additional, Тюпанова, О. А., additional, Atchison, W. L., additional, Holtkamp, D. B., additional, Kaul, A. M., additional, Reinovsky, R. E., additional, Rodrigues, G., additional, Tabaka, L. J., additional, Rouscalp, C. L., additional, Stone, J. B., additional, Oro, D. M., additional, Salazar, M., additional, Griego, J. R., additional, Payton, J. R., additional, and Westley, D. T., additional

Published
2013
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33. Pulsed Power Hydrodynamics: Atlas Results and Future Perspectives

Author

LOS ALAMOS NATIONAL LAB NM, Reinovsky, R E, Atchison, W L, Dimonte, G, Kaul, A M, Rodriguez, G, Rousculp, C L, Reardon, P T, LOS ALAMOS NATIONAL LAB NM, Reinovsky, R E, Atchison, W L, Dimonte, G, Kaul, A M, Rodriguez, G, Rousculp, C L, and Reardon, P T

Abstract

Pulsed Power Hydrodynamics (PPH) is a new application of low-impedance, pulsed power technology to the study of complex hydrodynamics, instabilities, turbulence, and material properties in a highly precise, controllable environment at the extremes of pressure and material velocity. The Atlas facility, designed and built by Los Alamos, is the world s first, and only, laboratory pulsed power system designed specifically to explore this relatively new family of pulsed power applications. Constructed in the year 2000 and commissioned in August 2001, Atlas is a 24-MJ high-performance capacitor bank delivering currents up to 30-Megamperes with a rise time of 5 to 6- sec. The high-precision, cylindrically imploding liner is the tool most frequently used to convert electromagnetic energy into the hydrodynamic (particle kinetic) energy needed to drive strong shocks, quasi-isentropic compression, or large volume, adiabatic compression for the experiments. At typical parameters, a 30-gr, 1-mm-thick liner with an initial radius of 5-cm, and an intermediate current of 20- MA can be accelerated to 7.5-km/sec producing megabar shocks in medium density targets. Velocities up to 20- km/sec and pressures 20-Mbar in high density targets are possible., See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013., The original document contains color images.

Published
2007

35. Pulsed Power Hydrodynamics: A Discipline Offering High Precision Data for Motivating and Validating Physics Models

Author

LOS ALAMOS NATIONAL LAB NM, Reinovsky, R E, LOS ALAMOS NATIONAL LAB NM, and Reinovsky, R E

Abstract

The discipline of Pulsed Power Hydrodynamics is a new application of low-impedance, pulsed power technology, developed to study implosion hydrodynamics, instabilities, turbulence, and material properties in a highly precise, controllable environment at the extremes of pressure and material velocity. The discipline of pulsed power hydrodynamics arose in response to the need for economical, high-precision data to validate sophisticated numerical models used in current numerical simulations and to motivate the development of new models for future simulations. The international capability in pulsed power technology that has evolved over several decades in response to numerous other programmatic needs played a pivotal role in the development of the new discipline by enabling demonstrations of the techniques and production of introductory data long before a dedicated facility could be conceived, planned, and built., See also ADM002371. 2013 IEEE Pulsed Power Conference, Digest of Technical Papers 1976-2013, and Abstracts of the 2013 IEEE International Conference on Plasma Science. IEEE International Pulsed Power Conference (19th). Held in San Francisco, CA on 16-21 June 2013., The original document contains color images.

Published
2005

37. The PHELIX Liner Demonstration Experiment (PLD-1)

Author

Rousculp, C. L., primary, Oro, D.M., additional, Reass, W. A., additional, Turchi, P. J., additional, Holtkamp, D. B., additional, Baca, D.M., additional, Griego, J. R., additional, Reinovsky, R. E., additional, Devore, D. O., additional, and Graves, T.E., additional

Published
2011
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40. PHELIX

Author

Rousculp, C. L., primary, Turchi, P. J., additional, Reass, W. A., additional, Oro, D. M., additional, Merrill, F. E., additional, Griego, J. R., additional, and Reinovsky, R. E., additional

Published
2009
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44. Dynamic Friction Experiments at the Atlas Pulsed Power Facility

Author

Rousculp, C. L., primary, Hammerberg, J. E., additional, Oro, D. M., additional, Rodriguez, G., additional, Goodwin, P. M., additional, Salazar, M. A., additional, Faehl, R. J., additional, Reinovsky, R. E., additional, Becker, J. R., additional, Berglin, R. A., additional, Delzer, K. W., additional, Gomez, G. H., additional, Malone, R. M., additional, Morgan, D. V., additional, Pate, T. V., additional, and Theuer, K. E., additional

Published
2007
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46. Dynamic Friction Experiments at the Atlas Pulsed Power Facility

Author

Rousculp, C. L., primary, Hammerberg, J. E., additional, Oro, D. M., additional, Rodriguez, G., additional, Goodwin, P. M., additional, Salazar, M. A., additional, Reinovsky, R. E., additional, Faehl, R. J., additional, Becker, J. R., additional, Berglin, R. A., additional, Delzer, K. W., additional, Gomez, G. H., additional, Malone, R. M., additional, Morgan, D. V., additional, Pate, T. V., additional, and Theuer, K. E., additional

Published
2006
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48. ANALYSIS OF THE DISK EXPLOSIVE MAGNETIC GENERATOR OPERATION IN THE HEL-1 EXPERIMENT

Author

CHERNYSHEV, V. K., primary, MOKHOV, V. N., additional, BUSIN, V. N., additional, BURENKOV, O. M., additional, BUYKO, A. M., additional, VAKHRUSHEV, V. V., additional, GRINEVICH, B. E., additional, GORBACHEV, YU. I., additional, KUZAEV, A. I., additional, KUCHEROV, A. I., additional, MAMYSHEV, V. I., additional, MATSEV, YU. I., additional, PETRUKHIN, A. A., additional, PISCHUROV, A. I., additional, STARTSEV, A. I., additional, YAKUBOV, V. B., additional, ANDERSON, A. G., additional, EKDAHL, C. A., additional, CLARK, D., additional, LINDEMUTH, I. R., additional, REINOVSKY, R. E., additional, FAEHL, R., additional, and YOUNGER, S. M., additional

Published
2004
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49. HIGH VOLTAGE APPLICATIONS OF EXPLOSIVELY FORMED FUSES

Author

TASKER, D. G., primary, GOFORTH, J. H., additional, FOWLER, C. M., additional, HERRERA, D. H., additional, KING, J. C., additional, LOPEZ, E. A., additional, MARTINEZ, E. C., additional, OONA, H., additional, MARSH, S. P., additional, REINOVSKY, R. E., additional, STOKES, J., additional, TABAKA, L. J., additional, TORRES, D. T., additional, SENA, F. C., additional, KIUTTU, G., additional, and DEGNAN, J., additional

Published
2004
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