SH11E-2417
Turbulence dissipation challenge: particle-in-cell simulations
Monday, 14 December 2015
Poster Hall (Moscone South)
Vadim Roytershteyn, SciberQuest, Inc, Atlanta, GA, United States, Homayoun Karimabadi, CureMetrix, Rancho Santa Fe, CA, United States, Yuri Omelchenko, Space Science Institute, Boulder, CO, United States and Kai Germaschewski, University of New Hampshire, Durham, NH, United States
Abstract:
We discuss application of three particle in cell (PIC) codes to the problems relevant to turbulence dissipation challenge. VPIC is a fully kinetic code extensively used to study a variety of diverse problems ranging from laboratory plasmas to astrophysics. PSC is a flexible fully kinetic code offering a variety of algorithms that can be advantageous to turbulence simulations, including high order particle shapes, dynamic load balancing, and ability to efficiently run on Graphics Processing Units (GPUs). Finally, HYPERS is a novel hybrid (kinetic ions+fluid electrons) code, which utilizes asynchronous time advance and a number of other advanced algorithms. We present examples drawn both from large-scale turbulence simulations and from the test problems outlined by the turbulence dissipation challenge. Special attention is paid to such issues as the small-scale intermittency of inertial range turbulence, mode content of the sub-proton range of scales, the formation of electron-scale current sheets and the role of magnetic reconnection, as well as numerical challenges of applying PIC codes to simulations of astrophysical turbulence.