Your search keyword '"Plasma wakefield accelerators"' showing total 2 results

1. Enhancing Plasma Wakefield and E-cloud Simulation Performance Using a Pipelining Algorithm.

Author

Feng, B., Huang, C., Decyk, V., Mori, W. B., Katsouleas, T., and Muggli, P.

Subjects

*PLASMA accelerators, *ELECTRON beams, *SIMULATION methods & models, *DATA pipelining, *ALGORITHMS, *PARALLEL processing

Abstract

Modeling long timescale propagation of beams in plasma wakefield accelerators at the energy frontier and in electron clouds in circular accelerators such as CERN-LHC requires faster and more efficient simulation codes. Simply increasing the number of processors does not scale beyond one-fifth of the number of cells in the decomposition direction. A pipelining algorithm applied on fully parallelized code QuickPIC is suggested to overcome this limit. The pipelining algorithm uses many groups of processors and optimizes the job allocation on the processors in parallel computing. With the new algorithm, it is possible to use on the order of 102 groups of processors, expanding the scale and speed of simulations with QuickPIC by a similar factor. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published

2006

2. Case Studies on Plasma Wakefield Accelerator Design

Author

Osterhoff, Jens, Najmudin, Z., and Faure, J.

Subjects

Accelerator Physics (physics.acc-ph), FOS: Physical sciences, Physics - Accelerator Physics, Accelerators and Storage Rings, Plasma wakefield accelerators, applications, case study

Abstract

CAS-CERN Accelerator School: Plasma Wake Acceleration CAS-CERN Accelerator School: Plasma Wake Acceleration, Geneva, Switzerland, 23 Nov 2014 - 29 Nov 2014 ; CERN Accelerator School Yellow Report CERN-2016-001, 301-308(2016). doi:http://dx.doi.org/10.5170/CERN-2016-001.301, The field of plasma-based particle accelerators has seen tremendous progressover the past decade and experienced significant growth in the number ofactivities. During this process, the involved scientific community hasexpanded from traditional university-based research and is now encompassingmany large research laboratories worldwide, such as BNL, CERN, DESY,KEK, LBNL and SLAC. As a consequence, there is a strong demand for aconsolidated effort in education at the intersection of accelerator, laser andplasma physics. The CERN Accelerator School on Plasma Wake Accelerationhas been organized as a result of this development. In this paper, we describethe interactive component of this one-week school, which consisted of threecase studies to be solved in 11 working groups by the participants of theCERN Accelerator School, Published by CERN, Geneva, Geneva

Published

2017