Search Results - "LoDestro, L.L."

First-principles based plasma profile predictions for optimized stellarators by Bañón Navarro, A., Di Siena, A., Velasco, J.L., Wilms, F., Merlo, G., Windisch, T., LoDestro, L.L., Parker, J.B., Jenko, F.

“…Abstract In the present Letter, first-of-its-kind computer simulations predicting plasma profiles for modern optimized stellarators—while self-consistently…”
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Status and verification of edge plasma turbulence code BOUT by Umansky, M.V., Xu, X.Q., Dudson, B., LoDestro, L.L., Myra, J.R.

“…The BOUT code is a detailed numerical model of tokamak edge turbulence based on collisional plasma fluid equations. BOUT solves for time evolution of plasma…”
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On coupling fluid plasma and kinetic neutral physics models by Joseph, I., Rensink, M.E., Stotler, D.P., Dimits, A.M., LoDestro, L.L., Porter, G.D., Rognlien, T.D., Sjogreen, B., Umansky, M.V.

“…•The Courant-Friedrichs-Lewy stability criterion restricts explicit plasma-neutral coupling methods to short time step.•Residuals decay with particle number…”
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Simulation of plasma fluxes to material surfaces with self-consistent edge turbulence and transport for tokamaks by Rognlien, T.D., Umansky, M.V., Xu, X.Q., Cohen, R.H., LoDestro, L.L.

“…The edge-plasma profiles and fluxes to the divertor and walls of a tokamak with a magnetic X-point are simulated by coupling a 2D transport code (UEDGE) and a…”
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Corrigendum to: Self-consistent modeling of turbulence and transport [J. Comput. Phys. 185 (2003) 399–426] by Shestakov, A.I., Cohen, R.H., Crotinger, J.A., LoDestro, L.L., Tarditi, A., Xu, X.Q.

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Exact analytic solution of the envelope equations for a matched quadrupole-focused beam in the low space charge limit by Anderson, O.A., LoDestro, L.L.

“…The Kapchinskij-Vladimirskij equations describe the evolution of the beam envelopes in a periodic system of quadrupole focusing cells and are widely used to…”
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Self-consistent modeling of turbulence and transport by Shestakov, A.I., Cohen, R.H., Crotinger, J.A., LoDestro, L.L., Tarditi, A., Xu, X.Q.

“…We describe an efficient procedure for coupling a turbulent system to a transport equation which evolves the equilibrium fields that drive and are driven by…”
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Exact solution of the envelope equations for a matchedquadrupole-focused beam in the zero space-charge limit by Anderson, Oscar A., LoDestro, L.L.

“…The Kapchinskij-Vladimirskij equations are widely used to study the evolution of the beam envelopes in a periodic system of quadrupole focusing cells. In this…”
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