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Harmonic Generation and Inverse Cascade in the z-Pinch Driven, Preseeded Multimode, Magneto-Rayleigh-Taylor Instability

Physical Review Letters

Ruiz, Daniel E.; Yager-Elorriaga, David A.; Peterson, K.J.; Sinars, Daniel; Weis, Matthew R.; Schroen, D.G.; Tomlinson, K.; Fein, Jeffrey R.; Beckwith, Kristian

The magneto-Rayleigh-Taylor instability (MRTI) plays an essential role in astrophysical systems and in magneto-inertial fusion, where it is known to be an important degradation mechanism of confinement and target performance. In this Letter, we show for the first time experimental evidence of mode mixing and the onset of an inverse-cascade process resulting from the nonlinear coupling of two discrete preseeded axial modes (400- and 550-μm wavelengths) on an Al liner that is magnetically imploded using the 20-MA, 100-ns rise-time Z Machine at Sandia National Laboratories. Four radiographs captured the temporal evolution of the MRTI. We introduce a novel unfold technique to analyze the experimental radiographs and compare the results to simulations and to a weakly nonlinear model. We find good quantitative agreement with simulations using the radiation magnetohydrodynamics code hydra. Spectral analysis of the MRTI time evolution obtained from the simulations shows evidence of harmonic generation, mode coupling, and the onset of an inverse-cascade process. The experiments provide a benchmark for future work on the MRTI and motivate the development of new analytical theories to better understand this instability.

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Self-Emission Crystal Imaging of MagLIF Targets on Z

Harding, Eric; Fein, Jeffrey R.; Bays, Nathan R.; Robertson, G.K.; Gomez, Matthew R.; Hansen, Stephanie B.; Harvey-Thompson, Adam J.; Dunham, Gregory S.; Slutz, Stephen A.; Weis, Matthew R.; Jennings, Christopher A.; Maurer, Andrew J.; Ampleford, David; Rochau, Gregory A.; Doron, R.; Nedostup, O.; Stambulchik, E.; Zarnitsky, Y.; Maron, Y.; Paguio, Reny; Tomlinson, Kurt; Huang, H.; Smith, Gary; Taylor, Randy

Abstract not provided.

Estimation of stagnation performance metrics in magnetized liner inertial fusion experiments using Bayesian data assimilation

Physics of Plasmas

Knapp, P.F.; Glinsky, Michael E.; Schaeuble, Marc-Andre; Jennings, Christopher A.; Evans, Matthew; Gunning, James; Awe, Thomas J.; Chandler, Gordon A.; Geissel, Matthias; Gomez, Matthew R.; Hahn, Kelly D.; Hansen, Stephanie B.; Harding, Eric; Harvey-Thompson, Adam J.; Humane, Shailja; Klein, Brandon; Mangan, Michael A.; Nagayama, Taisuke; Porwitzky, A.; Ruiz, Daniel E.; Schmit, Paul F.; Slutz, Stephen A.; Smith, Ian C.; Weis, Matthew R.; Yager-Elorriaga, David A.; Ampleford, David; Beckwith, Kristian; Mattsson, Thomas; Peterson, K.J.; Sinars, Daniel

Here we present a new analysis methodology that allows for the self-consistent integration of multiple diagnostics including nuclear measurements, x-ray imaging, and x-ray power detectors to determine the primary stagnation parameters, such as temperature, pressure, stagnation volume, and mix fraction in magnetized liner inertial fusion (MagLIF) experiments. The analysis uses a simplified model of the stagnation plasma in conjunction with a Bayesian inference framework to determine the most probable configuration that describes the experimental observations while simultaneously revealing the principal uncertainties in the analysis. We validate the approach by using a range of tests including analytic and three-dimensional MHD models. An ensemble of MagLIF experiments is analyzed, and the generalized Lawson criterion χ is estimated for all experiments.

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An overview of magneto-inertial fusion on the Z Machine at Sandia National Laboratories

Nuclear Fusion

Yager-Elorriaga, David A.; Ruiz, Daniel E.; Slutz, Stephen A.; Harvey-Thompson, Adam J.; Jennings, Christopher A.; Weis, Matthew R.; Weisy; Awe, Thomas J.; Chandler, Gordon A.; Myers, Clayton; Fein, Jeffrey R.; Galloway, Benjamin R.; Geissel, Matthias; Glinsky, Michael E.; Hansen, Stephanie B.; Harding, Eric; Lamppa, Derek C.; Bays, Nathan R.; Rambo, Patrick K.; Robertson, G.K.; Savage, Mark E.; Shipley, Gabriel A.; Schwarz, Jens; Ampleford, David; Beckwith, Kristian; Peterson, K.J.; Porter, John L.; Rochau, Gregory A.

We present an overview of the magneto-inertial fusion (MIF) concept MagLIF (Magnetized Liner Inertial Fusion) pursued at Sandia National Laboratories and review some of the most prominent results since the initial experiments in 2013. In MagLIF, a centimeter-scale beryllium tube or "liner" is filled with a fusion fuel, axially pre-magnetized, laser pre-heated, and finally imploded using up to 20 MA from the Z machine. All of these elements are necessary to generate a thermonuclear plasma: laser preheating raises the initial temperature of the fuel, the electrical current implodes the liner and quasi-adiabatically compresses the fuel via the Lorentz force, and the axial magnetic field limits thermal conduction from the hot plasma to the cold liner walls during the implosion. MagLIF is the first MIF concept to demonstrate fusion relevant temperatures, significant fusion production (>10^13 primary DD neutron yield), and magnetic trapping of charged fusion particles. On a 60 MA next-generation pulsed-power machine, two-dimensional simulations suggest that MagLIF has the potential to generate multi-MJ yields with significant self-heating, a long-term goal of the US Stockpile Stewardship Program. At currents exceeding 65 MA, the high gains required for fusion energy could be achievable.

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Magnetic field effects on laser energy deposition and filamentation in magneto-inertial fusion relevant plasmas

Physics of Plasmas

Lewis, Sean M.; Weis, Matthew R.; Speas, Christopher S.; Kimmel, Mark; Bengtson, Roger D.; Breizman, Boris; Geissel, Matthias; Gomez, Matthew R.; Harvey-Thompson, Adam J.; Kellogg, Jeffrey; Long, Joel; Quevedo, Hernan J.; Rambo, Patrick K.; Riley, Nathan R.; Schwarz, Jens; Shores, Jonathon; Stahoviak, John; Ampleford, David; Porter, John L.; Ditmire, Todd; Looker, Quinn M.; Struve, Kenneth

We report on experimental measurements of how an externally imposed magnetic field affects plasma heating by kJ-class, nanosecond laser pulses. The experiments reported here took place in gas cells analogous to magnetized liner inertial fusion targets. We observed significant changes in laser propagation and energy deposition scale lengths when a 12T external magnetic field was imposed in the gas cell. We find evidence that the axial magnetic field reduces radial electron thermal transport, narrows the width of the heated plasma, and increases the axial plasma length. Reduced thermal conductivity increases radial thermal gradients. This enhances radial hydrodynamic expansion and subsequent thermal self-focusing. Our experiments and supporting 3D simulations in helium demonstrate that magnetization leads to higher thermal gradients, higher peak temperatures, more rapid blast wave development, and beam focusing with an applied field of 12T.

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Lasergate: a windowless gas target for enhanced laser preheat in MagLIF

Galloway, Benjamin R.; Slutz, Stephen A.; Kimmel, Mark; Rambo, Patrick K.; Schwarz, Jens; Geissel, Matthias; Harvey-Thompson, Adam J.; Weis, Matthew R.; Jennings, Christopher A.; Field, Ella; Kletecka, Damon; Looker, Quinn M.; Colombo, Anthony; Edens, Aaron; Smith, Ian C.; Shores, Jonathon; Speas, Christopher S.; Speas, Robert J.; Spann, Andrew; Sin, Justin; Gautier, Sophie; Sauget, Vincent; Treadwell, Paul; Rochau, Gregory A.; Porter, John L.

Abstract not provided.

Lasergate: A windowless gas target for enhanced laser preheat in magnetized liner inertial fusion

Physics of Plasmas

Galloway, Benjamin R.; Slutz, Stephen A.; Kimmel, Mark; Rambo, Patrick K.; Schwarz, Jens; Geissel, Matthias; Harvey-Thompson, Adam J.; Weis, Matthew R.; Jennings, Christopher A.; Field, Ella; Kletecka, Damon; Looker, Quinn M.; Colombo, Anthony; Edens, Aaron; Smith, Ian C.; Shores, Jonathon; Speas, Christopher S.; Speas, Robert J.; Spann, A.P.; Sin, J.; Gautier, S.; Sauget, V.; Treadwell, P.A.; Rochau, Gregory A.; Porter, John L.

At the Z Facility at Sandia National Laboratories, the magnetized liner inertial fusion (MagLIF) program aims to study the inertial confinement fusion in deuterium-filled gas cells by implementing a three-step process on the fuel: premagnetization, laser preheat, and Z-pinch compression. In the laser preheat stage, the Z-Beamlet laser focuses through a thin polyimide window to enter the gas cell and heat the fusion fuel. However, it is known that the presence of the few μm thick window reduces the amount of laser energy that enters the gas and causes window material to mix into the fuel. These effects are detrimental to achieving fusion; therefore, a windowless target is desired. The Lasergate concept is designed to accomplish this by "cutting"the window and allowing the interior gas pressure to push the window material out of the beam path just before the heating laser arrives. In this work, we present the proof-of-principle experiments to evaluate a laser-cutting approach to Lasergate and explore the subsequent window and gas dynamics. Further, an experimental comparison of gas preheat with and without Lasergate gives clear indications of an energy deposition advantage using the Lasergate concept, as well as other observed and hypothesized benefits. While Lasergate was conceived with MagLIF in mind, the method is applicable to any laser or diagnostic application requiring direct line of sight to the interior of gas cell targets.

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Increased preheat energy to MagLIF targets with cryogenic cooling

Harvey-Thompson, Adam J.; Geissel, Matthias; Crabtree, Jerry A.; Weis, Matthew R.; Gomez, Matthew R.; Fein, Jeffrey R.; Ampleford, David; Awe, Thomas J.; Chandler, Gordon A.; Galloway, Benjamin R.; Hansen, Stephanie B.; Hanson, Jeffrey; Harding, Eric; Jennings, Christopher A.; Kimmel, Mark; Knapp, P.F.; Lamppa, Derek C.; Bays, Nathan R.; Mangan, Michael A.; Maurer, Andrew J.; Perea, Lawrence; Peterson, Kara J.; Porter, John L.; Rambo, Patrick K.; Robertson, G.K.; Rochau, Gregory A.; Ruiz, Daniel E.; Shores, Jonathon; Slutz, Stephen A.; Smith, Ian C.; Speas, Christopher S.; Yager-Elorriaga, David A.; York, A.; Paguio, R.R.; Smith, G.E.

Abstract not provided.

Results 26–50 of 129
Results 26–50 of 129
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