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Overview of TriForce: Projects, Progress, and Plans

POSTER

Abstract

We report on development progress of our particle-based hybrid fluid-kinetic simulation framework named TriForce. The code recovers results from both radiation-magnetohydrodynamic and fully kinetic codes, and is being designed to operate in between, where both descriptions may coexist and interact. The hybrid method enables capabilities beyond either of the individual modeling methods alone, and is being used to investigate a range of topics in fields such as inertial confinement fusion, magneto-inertial fusion, magnetic confinement fusion, and high-energy-density physics. The goal of the TriForce Center for Multiphysics Modeling is to provide better predictive capability and access to modern, accelerated, and parallelized models for the benefit of the academic community. The current status of the project and its applications will be surveyed.

Presenters

  • Adam B Sefkow

    University of Rochester, Dept. of Mechanical Engineering, Dept. of Physics and Astronomy, Laboratory for Laser Energetics, U. of Rochester, Department of Mechanical Engineering, Lab for Laser Energetics, University of Rochester, Departments of Mechanical Engineering and Physics and the Laboratory for Laser Energetics, University of Rochester, University of Rochester Departments of Mechanical Engineering, Physics, and Computer Science, Laboratory for Laser Energetics, University of Rochester

Authors

  • Adam B Sefkow

    University of Rochester, Dept. of Mechanical Engineering, Dept. of Physics and Astronomy, Laboratory for Laser Energetics, U. of Rochester, Department of Mechanical Engineering, Lab for Laser Energetics, University of Rochester, Departments of Mechanical Engineering and Physics and the Laboratory for Laser Energetics, University of Rochester, University of Rochester Departments of Mechanical Engineering, Physics, and Computer Science, Laboratory for Laser Energetics, University of Rochester

  • John G Shaw

    University of Rochester, Laboratory for Laser Energetics

  • Ayden J Kish

    University of Rochester, Dept. of Physics and Astronomy, Laboratory for Laser Energetics, U. of Rochester, Department of Physics, Lab for Laser Energetics, University of Rochester

  • Michael J Lavell

    University of Rochester

  • Andrew T Sexton

    University of Rochester, Dept. of Computer Science, Dept. of Mechanical Engineering, Laboratory for Laser Energetics, U. of Rochester, Department of Computer Science, Department of Mechanical Engineering, University of Rochester

  • Steinar Borve

    University of Rochester

  • Alex Bowman

    University of Rochester

  • Matthew Burns

    University of Rochester, University of Rochester Departments of Mechanical Engineering, Physics, and Computer Science

  • Jonathan Carroll-Nellenback

    University of Rochester

  • Samuel A Cohen

    Princeton Plasma Physics Laboratory

  • Sandhya Dwarkadas

    University of Rochester

  • Marc Haddad

    University of Rochester

  • Keagan Hemsley

    University of Rochester

  • Abdallah Kokash

    University of Rochester

  • Yousef Lawrence

    University of Chicago, University of Chicago; Laboratory for Laser Energetics, U. of Rochester

  • Robert L McCrory

    University of Rochester

  • Abdul Nahar

    University of Rochester

  • Sreepathi Pai

    University of Rochester, Department of Computer Science, University of Rochester, University of Rochester Departments of Mechanical Engineering, Physics, and Computer Science

  • Aayush Poudel

    University of Rochester

  • Tamoy Seabourne

    University of Rochester

  • William Scullin

    Laboratory for Laser Energetics, U. of Rochester, University of Rochester

  • Scott Sikorski

    University of Rochester

  • Aditya R Srinivasan

    University of Rochester, Laboratory for Laser Energetics

  • Hristijan Stojkovich

    University of Rochester

  • Alex Velberg

    University of Rochester

  • Kagan Yanik

    University of Rochester

  • Shuang Zhai

    University of Rochester