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Modeling of Ionization Physics with the PIC Code OSIRIS.
M. J. Hogan
S. Wang
S. Lee
E. Dodd
C. E. Clayton
R. H. Iverson
F. J. Decker
C. Huang
W. B. Mori
T. Katsouleas
W. Lu
D. Walz
P. Raimondi
C. Joshi
S. Deng
P. Muggli
C. Ren
F. Tsung
B. E. Blue
C. O'Connell
R. Hemker
出版
United States. Department of Energy
, 2005
URL
http://books.google.com.hk/books?id=y7NiAQAACAAJ&hl=&source=gbs_api
註釋
When considering intense particle or laser beams propagating in dense plasma or gas, ionization plays an important role. Impact ionization and tunnel ionization may create new plasma electrons, altering the physics of wakefield accelerators, causing blue shifts in laser spectra, creating and modifying instabilities, etc. Here we describe the addition of an impact ionization package into the 3-D, object-oriented, fully parallel PIC code OSIRIS. We apply the simulation tool to simulate the parameters of the upcoming E164 Plasma Wakefield Accelerator experiment at the Stanford Linear Accelerator Center (SLAC). We find that impact ionization is dominated by the plasma electrons moving in the wake rather than the 30 GeV drive beam electrons. Impact ionization leads to a significant number of trapped electrons accelerated from rest in the wake.
