The plasma afterburner has been proposed as a possible advanced acceleration scheme for a future linear collider. In this concept, a high energy electron(or positron) drive beam from an existing linac such as the SLC will propagate in a plasma section of density about one order of magnitude lower than the peak beam density. The particle beam generates a strong plasma wave wakefield which has a phase velocity equal to the velocity of the beam and this wakefield can be used to accelerate part of the drive beam or a trailing beam. Several issues such as the efficient transfer of energy and the stable propagation of the particle beam in the plasma are critical to the afterburner concept. We investigate the nonlinear beam‐plasma interactions in such scenario using a new 3D particle‐in‐cell code called QuickPIC. Preliminary simulation results for electron acceleration, beam‐loading and hosing instability will be presented.
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7 December 2004
ADVANCED ACCELERATOR CONCEPTS: Eleventh Advanced Accelerator Concepts Workshop
21-26 June 2004
Stony Brook, New York (USA)
Research Article|
December 07 2004
Simulation of a 50GeV PWFA Stage
C. Huang;
C. Huang
1University of California, Los Angeles 90095
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M. M. Zhou;
M. M. Zhou
1University of California, Los Angeles 90095
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V. K. Decyk;
V. K. Decyk
1University of California, Los Angeles 90095
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W. B. Mori;
W. B. Mori
1University of California, Los Angeles 90095
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C. D. Barnes;
C. D. Barnes
3Stanford Linear Accelerator Center 94025
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C. E. Clayton;
C. E. Clayton
1University of California, Los Angeles 90095
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F. J. Decker;
F. J. Decker
3Stanford Linear Accelerator Center 94025
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M. J. Hogan;
M. J. Hogan
3Stanford Linear Accelerator Center 94025
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R. Iverson;
R. Iverson
3Stanford Linear Accelerator Center 94025
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D. K. Johnson;
D. K. Johnson
1University of California, Los Angeles 90095
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C. Joshi;
C. Joshi
1University of California, Los Angeles 90095
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T. Katsouleas;
T. Katsouleas
2University of Southern California 90089
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P. Krejcik;
P. Krejcik
3Stanford Linear Accelerator Center 94025
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K. A. Marsh;
K. A. Marsh
1University of California, Los Angeles 90095
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P. Muggli;
P. Muggli
2University of Southern California 90089
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C. O’Connell;
C. O’Connell
3Stanford Linear Accelerator Center 94025
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D. Walz
D. Walz
3Stanford Linear Accelerator Center 94025
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AIP Conf. Proc. 737, 433–439 (2004)
Citation
C. Huang, W. Lu, M. M. Zhou, V. K. Decyk, W. B. Mori, E. Oz, C. D. Barnes, C. E. Clayton, F. J. Decker, S. Deng, M. J. Hogan, R. Iverson, D. K. Johnson, C. Joshi, T. Katsouleas, P. Krejcik, K. A. Marsh, P. Muggli, C. O’Connell, D. Walz; Simulation of a 50GeV PWFA Stage. AIP Conf. Proc. 7 December 2004; 737 (1): 433–439. https://doi.org/10.1063/1.1842574
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