Maximizing Spectral Flux from Self-Seeding Hard X-ray FELs

Abstract

Fully coherent x-rays can be generated by self-seeding x-ray free-electron lasers (XFELs). Self-seeding by a forward Bragg diffraction (FBD) monochromator has been recently proposed [1] and demonstrated [2]. Characteristic time To of FBD determines the power, spectral, and time characteristics of the FBD seed [3]. Here we show that for a given electron bunch with duration sigmae the spectral flux of the self-seeding XFEL can be maximized, and the spectral bandwidth can be respectively minimized by choosing To ~ sigmae/pi and by optimizing the electron bunch delay taue. The choices of To and taue are not unique. In all cases, the maximum value of the spectral flux and the minimum bandwidth are primarily determined by sigmae. Two-color seeding takes place To >> sigmae/π. The studies are performed, for a Gaussian electron bunch distribution with the parameters, close to those used in the short-bunch (sigmae ~ 5 fs) and long-bunch (sigmae ~ 20 fs) operation modes of the LCLS XFEL.