| Popis: |
Many applications of high brightness, highly relativistic electron beams carry strict requirements on longitudinal phase space quality. To meet these requirements, accelerator systems typically utilize dispersive elements to manipulate the correlated energy spread acquired during acceleration or via collective effects. The many free variables in these systems make finding an optimal configuration difficult. We present here an analytical method for tracking a desired final longitudinal phase space backwards through an accelerator section composed of an acceleration or drift section followed by a dispersive section, including analytical models of pertinent collective effects. This backtracking can serve as a fast and accurate tool for optimization and study of the longitudinal phase space dynamics of an accelerator system. Here, we consider the LCLS-II accelerator as an example case, using this method to find an accelerator configuration and longitudinal phase space at the injector exit that lead to a significant increase in peak current while maintaining a narrow energy spread at the accelerator exit. The validity of this method is tested by comparison with Elegant simulations, showing good agreement. |
