Author :
Muggli, P. ; Katsouleas, T. ; Oz, E. ; Blumenfeld, I. ; Decker, F.J. ; Hogan, M.J. ; Ischebeck, R. ; Iverson, R. ; Kirby, N. ; Siemann, R. ; Walz, D. ; Clayton, C.E. ; Huang, C. ; Joshi, C. ; Lu, W. ; Marsh, K.A. ; Mori, W.B. ; Zhou, M.
Abstract :
We have recently demonstrating the doubling of the energy of particles of the ultra-short, ultra-relativistic electron bunches of the Stanford Linear Accelerator Center [1]. This energy doubling occurred in a plasma only 85 cm-long with a density of =2.6times1017 e-/cm-3. This milestone is the result of systematic measurements that show the scaling of the energy gain with plasma length and density, and show the reproducibility and the stability of the acceleration process. We show that the energy gain increases linearly with plasma length from 13 to 31 cm. These are key steps toward the application of beam- driven plasma accelerators or plasma wakefield accelerators (PWFA) to doubling the energy of a future linear collider without doubling its length.
Keywords :
beam handling techniques; electron accelerators; particle beam bunching; plasma accelerators; plasma density; wakefield accelerators; beam-driven plasma accelerators; bunch length; energy doubling; energy gain; linear collider; plasma density; plasma electrons; plasma parameters; plasma wakefield accelerator; Acceleration; Density measurement; Electrons; Linear accelerators; Particle accelerators; Plasma accelerators; Plasma applications; Plasma density; Plasma measurements; Plasma stability;
