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Feasibility and performance of the staged Z-pinch: A one-dimensional study with <i>FLASH</i> and <i>MACH2</i>

E. C. Hansen, F. García-Rubio, Marissa Adams, Milad Fatenejad, K. Moczulski, P. Ney, H. U. Rahman, Adam Reyes, E. Ruskov, V. Tranchant, Petros Tzeferacos

2024Physics of Plasmas11 citationsDOIOpen Access PDF

Abstract

Z-pinch platforms constitute a promising pathway to fusion energy research. Here, we present a one-dimensional numerical study of the staged Z-pinch (SZP) concept using the FLASH and MACH2 codes. We discuss the verification of the codes using two analytical benchmarks that include Z-pinch-relevant physics, building confidence on the codes' ability to model such experiments. Then, FLASH is used to simulate two different SZP configurations: a xenon gas-puff liner (SZP1*) and a silver solid liner (SZP2). The SZP2 results are compared against previously published MACH2 results, and a new code-to-code comparison on SZP1* is presented. Using an ideal equation of state and analytical transport coefficients, FLASH yields a fuel convergence ratio (CR) of approximately 39 and a mass-averaged fuel ion temperature slightly below 1 keV for the SZP2 scheme, significantly lower than the full-physics MACH2 prediction. For the new SZP1* configuration, full-physics FLASH simulations furnish large and inherently unstable CRs (&amp;gt;300) but achieve fuel ion temperatures of many kilo-electron volts. While MACH2 also predicts high temperatures, the fuel stagnates at a smaller CR. The integrated code-to-code comparison reveals how magnetic insulation, heat conduction, and radiation transport affect platform performance and the feasibility of the SZP concept.

Topics & Concepts

PhysicsPinchFlash (photography)Z-pinchNuclear engineeringPlasmaThermal conductionComputational physicsAtomic physicsMechanicsNuclear physicsThermodynamicsOpticsEngineeringMagnetic confinement fusion researchLaser-Plasma Interactions and DiagnosticsAtomic and Molecular Physics
Feasibility and performance of the staged Z-pinch: A one-dimensional study with <i>FLASH</i> and <i>MACH2</i> | Litcius