%0 Journal Article
%T Recent Developments in UV Optics for Ultra-Short, Ultra-Intense Coherent Light Sources
%A Daniele Cocco
%J Photonics
%P 40-49
%D 2015
%R 10.3390/photonics2010040
%X With the advent of Free Electron Lasers and general UV ultra-short, ultra-intense sources, optics needed to transport such radiation have evolved significantly to standard UV optics. Problems like surface damage, wavefront preservation, beam splitting, beam shaping, beam elongation (temporal stretching) pose new challenges for the design of beam transport systems. These problems lead to a new way to specify optics, a new way to use diffraction gratings, a search for new optical coatings, to tighter and tighter polishing requirements for mirrors, and to an increased use of adaptive optics. All these topics will be described in this review article, to show how optics could really be the limiting factor for future development of these new light sources.
%K active optics
%K FEL optics
%K wavefront preservation
%U http://www.mdpi.com/2304-6732/2/1/40