E. Gjonaj, X. Dong, R. Hampel, M. Kärkkäinen, T. Lau, ...
A new approach for the computation of short range wake fields for ultra-relativistic bunches in linear accelerators is presented. The method is based on the time domain solution of Maxwell equations...
Computation of Short Range Wake Field with PBCI. (2008)
E. Gjonaj, DESY Maschinenphysik, T. Lau, T. Weiland, R. Wanzenberg
Journal article
DESY Maschinenphysik, C. Adolphsen, Z. Li, M. Dohlus, ...
Contribution to a conf. proceeding (book/online)
Coupler Kick for Very Short Bunches and its Compensation. 2008-06-23 - 2008-06-27 (2008)
M. Dohlus, DESY Maschinenphysik, I. Zagorodnov, E. Gjonaj, T. Weiland
Contribution to a conf. proceeding (book/online)
Transverse Effects due to Vacuum Mirror of RF Gun. 2008-06-23 - 2008-06-27 (2008)
M. Dohlus, DESY Maschinenphysik, I. Zagorodnov, M. Krasilnikov, E. Gjonaj, ...
Contribution to a conf. proceeding (book/online)
Dahmen, H. D., Gjonaj, E., Stroh, T.
We discuss applications of the quantile concept of trajectories and velocities to the propagation of electromagnetic signals in wave guides of varying cross section. Quantile motion is a general...
Quantile Motion and Tunneling (1998)
Brandt, S., Dahmen, H. D., Gjonaj, E., Stroh, T.
The concepts of quantile position, trajectory, and velocity are defined. For a tunneling quantum mechanical wave packet, it is proved that its quantile position always stays behind that of a free...
Quantile motion and tunneling (1995)
Brandt, S, Dahmen, H D, Gjonaj, E, Stroh, T
The concepts of quantile position, trajectory, and velocity are defined. For a tunneling quantum mechanical wave packet, it is proved that its quantile position always stays behind that of a free...