Benefits of Higher-Order Particle Shapes in the Electromagnetic PIC Code VORPAL

Kevin Paul; David Bruhwiler; Paul Mullowney; Peter Messmer; J.R. Cary; Cameron Geddes; Estelle Cormier-Michel; Eric Esarey

Benefits of Higher-Order Particle Shapes in the Electromagnetic PIC Code VORPAL

POSTER

Abstract

Noise is one of the largest hurdles that particle-in-cell (PIC) codes must overcome in order to resolve such phenomena as particle trapping in laser wakefield acceleration (LWFA) and laser-solid interactions in fast ignition fusion scenarios. Using higher-order particle shapes has been shown to substantially reduce this noise. We present results of the implementation of higher-order particle shapes in the electromagnetic and electrostatic PIC code VORPAL, showing the benefits in application to LWFA and laser-solid interactions.

^*Work supported by the U.S. DOE Office of Science, Office of High Energy Physics, under grants DE-FG02-06ER84484 (PICA) and DE-FG02-05ER84173 (HighZ).

Authors

Kevin Paul
- Tech-X Corporation
David Bruhwiler
- Tech-X Corporation
- Tech-X
- Tech X Corp
Paul Mullowney
- Tech-X Corporation
Peter Messmer
- Tech-X Corporation
J.R. Cary
- Tech-X Corporation
- University of Colorado
- Tech-X
- Tech-X Corp.
- Tech X Corp
Cameron Geddes
- Lawrence Berkeley Lab
- LBNL
- Lawrence Berkeley National Laboratory
Estelle Cormier-Michel
- Lawrence Berkeley Lab
- UNR
- LBNL
Eric Esarey
- Lawrence Berkeley Lab
- LBNL
- Lawrence Berkeley National Laboratory