Review of the second charged-particle transport coefficient code comparison workshop

Lucas J. Stanek; Alexander White; Maximilian Schörner; V. Recoules; Andrew Baczewski; Joshua Townsend; Meghan Lentz; Amanda Dumi; Cody Melton; Mikael Tacu; Lucas J. Babati; Martin French; François Soubiran; Alina Kononov; K. A. Nichols; R. Redmer; G. Röpke; Vidushi Sharma; Scott Baalrud; G. M. Petrov; L. A. Collins; Nathaniel R. Shaffer; B. M. Haines; G. Faussurier; Luciano G. Silvestri; Liam Stanton; Valentin V. Karasiev; Mandy Bethkenhagen; Stephanie B. Hansen; Heather D. Whitley; Patrick Knapp; Kyle Cochrane; Augustin Blanchet; Michael S. Murillo; Phanish Suryanarayana; Zachary A. Johnson; S. X. Hu; Shashikant Kumar; Raymond C. Clay

doi:10.1063/5.0198155

Review of the second charged-particle transport coefficient code comparison workshop

Lucas J. Stanek(Sandia National Laboratories), Alexander White(Los Alamos National Laboratory), Maximilian Schörner(University of Rostock), V. Recoules(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Andrew Baczewski(Sandia National Laboratories), Joshua Townsend(Sandia National Laboratories), Meghan Lentz(Sandia National Laboratories), Amanda Dumi(Sandia National Laboratories), Cody Melton(Sandia National Laboratories), Mikael Tacu(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Lucas J. Babati(University of Michigan), Martin French(University of Rostock), François Soubiran(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Alina Kononov(Sandia National Laboratories), K. A. Nichols(University of Rochester), R. Redmer(University of Rostock), G. Röpke(University of Rostock), Vidushi Sharma(Los Alamos National Laboratory), Scott Baalrud(University of Michigan), G. M. Petrov(United States Naval Research Laboratory), L. A. Collins(Los Alamos National Laboratory), Nathaniel R. Shaffer(University of Rochester), B. M. Haines(Los Alamos National Laboratory), G. Faussurier(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Luciano G. Silvestri(Michigan State University), Liam Stanton(San Jose State University), Valentin V. Karasiev(University of Rochester), Mandy Bethkenhagen(Centre National de la Recherche Scientifique), Stephanie B. Hansen(Sandia National Laboratories), Heather D. Whitley(Lawrence Livermore National Laboratory), Patrick Knapp(Los Alamos National Laboratory), Kyle Cochrane(Sandia National Laboratories), Augustin Blanchet(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Michael S. Murillo(Michigan State University), Phanish Suryanarayana(Georgia Institute of Technology), Zachary A. Johnson(Michigan State University), S. X. Hu(University of Rochester), Shashikant Kumar(Georgia Institute of Technology), Raymond C. Clay(Sandia National Laboratories)

Physics of Plasmas

May 1, 2024

10.1063/5.0198155

Cited by 48

|Physical Review E|2011|116

Three-dimensional model for the effective viscosity of bacterial suspensions

|Physical Review E|2009|103

High-resolution modeling of indirectly driven high-convergence layered inertial confinement fusion capsule implosions

|Physics of Plasmas|2017|93

Estimating the effective Reynolds number in implicit large-eddy simulation

|Physical Review E|2014|85

Roadmap on electronic structure codes in the exascale era

|Modelling and Simulation in Materials Science and Engineering|2023|72

Review of the second charged-particle transport coefficient code comparison workshop

Related Papers