no code implementations • 17 Dec 2020 • F. Batsch, P. Muggli, R. Agnello, C. C. Ahdida, M. C. Amoedo Goncalves, Y. Andrebe, O. Apsimon, R. Apsimon, A. -M. Bachmann, M. A. Baistrukov, P. Blanchard, F. Braunmüller, P. N. Burrows, B. Buttenschön, A. Caldwell, J. Chappell, E. Chevallay, M. Chung, D. A. Cooke, H. Damerau, C. Davut, G. Demeter, H. L. Deubner, S. Doebert, J. Farmer, A. Fasoli, V. N. Fedosseev, R. Fiorito, R. A. Fonseca, F. Friebel, I. Furno, L. Garolfi, S. Gessner, I. Gorgisyan, A. A. Gorn, E. Granados, M. Granetzny, T. Graubner, O. Grulke, E. Gschwendtner, V. Hafych, A. Helm, J. R. Henderson, M. Hüther, I. Yu. Kargapolov, S. -Y. Kim, F. Kraus, M. Krupa, T. Lefevre, L. Liang, S. Liu, N. Lopes, K. V. Lotov, M. Martyanov, S. Mazzoni, D. Medina Godoy, V. A. Minakov, J. T. Moody, K. Moon, P. I. Morales Guzmán, M. Moreira, T. Nechaeva, E. Nowak, C. Pakuza, H. Panuganti, A. Pardons, A. Perera, J. Pucek, A. Pukhov, R. L. Ramjiawan, S. Rey, K. Rieger, O. Schmitz, E. Senes, L. O. Silva, R. Speroni, R. I. Spitsyn, C. Stollberg, A. Sublet, A. Topaloudis, N. Torrado, P. V. Tuev, M. Turner, F. Velotti, L. Verra, V. A. Verzilov, J. Vieira, H. Vincke, C. P. Welsch, M. Wendt, M. Wing, P. Wiwattananon, J. Wolfenden, B. Woolley, G. Xia, M. Zepp, G. Zevi Della Porta
We use a relativistic ionization front to provide various initial transverse wakefield amplitudes for the self-modulation of a long proton bunch in plasma.
Plasma Physics Accelerator Physics
no code implementations • 15 Dec 2020 • W. L. Zhang, T. Grismayer, K. M. Schoeffler, R. A. Fonseca, L. O. Silva
In the self-consistent scenario of pair production by an ultraintense laser striking a solid target, particle-in-cell simulations, which account for quantum electrodynamic effects (photon emission and pair production), show that dense (greater than the relativistically-corrected critical density) and hot pair plasmas can be created.
Plasma Physics Applied Physics Instrumentation and Detectors