Computational Accelerator Physics 2003
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beam
beam dynamics simulation
Beam Pipe
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Computational Accelerator Physics
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Distribution Function
Doe
dynamics
electric
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field
finite element eigenmode
force
high brightness electron bunches
IJ
Michigan State University
Neutrino Factory
PACS
parallel computing physics
particle tracking simulation
phase
Pic Code
Poisson Solver
ray tracing algorithms
RF Cavity
ring
SNS
Solenoidal Field
space
Space Charge
Space Charge Field
Space Charge Forces
Space Charge Model
space charge modeling
storage
Storage Ring
Transfer Map
Transversal Emittance
Vlasov Equation
Wake Field
Wake Potential
Wedge Absorbers
Product details
- ISBN 9780750309394
- Weight: 725g
- Dimensions: 156 x 234mm
- Publication Date: 01 Feb 2005
- Publisher: Taylor & Francis Ltd
- Publication City/Country: GB
- Product Form: Hardback
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This volume provides an overview of the state of the art in computational accelerator physics, based on papers presented at the seventh international conference at Michigan State University in October 2002. The major topics covered in this volume include particle tracking and ray tracing, transfer map methods, field computation for time dependent Maxwell's equations and static magnetic problems, as well as space charge and beam-beam effects. The book also discusses modern computational environments, including parallel clusters, visualization, and new programming paradigms. It is ideal for scientists and engineers working in beam or accelerator physics and related areas of applied math and computer science.
M Berz, Michigan State University. K. Makino, University of Illinois at Urbana-Champaign, USA.
