| Literature DB >> 11909361 |
V Ayvazyan1, N Baboi, I Bohnet, R Brinkmann, M Castellano, P Castro, L Catani, S Choroba, A Cianchi, M Dohlus, H T Edwards, B Faatz, A A Fateev, J Feldhaus, K Flöttmann, A Gamp, T Garvey, H Genz, Ch Gerth, V Gretchko, B Grigoryan, U Hahn, C Hessler, K Honkavaara, M Hüning, R Ischebeck, M Jablonka, T Kamps, M Körfer, M Krassilnikov, J Krzywinski, M Liepe, A Liero, T Limberg, H Loos, M Luong, C Magne, J Menzel, P Michelato, M Minty, U-C Müller, D Nölle, A Novokhatski, C Pagani, F Peters, J Pflüger, P Piot, L Plucinski, K Rehlich, I Reyzl, A Richter, J Rossbach, E L Saldin, W Sandner, H Schlarb, G Schmidt, P Schmüser, J R Schneider, E A Schneidmiller, H-J Schreiber, S Schreiber, D Sertore, S Setzer, S Simrock, R Sobierajski, B Sonntag, B Steeg, F Stephan, K P Sytchev, K Tiedtke, M Tonutti, R Treusch, D Trines, D Türke, V Verzilov, R Wanzenberg, T Weiland, H Weise, M Wendt, I Will, S Wolff, K Wittenburg, M V Yurkov, K Zapfe.
Abstract
Experimental results are presented from vacuum-ultraviolet free-electron laser (FEL) operating in the self-amplified spontaneous emission (SASE) mode. The generation of ultrashort radiation pulses became possible due to specific tailoring of the bunch charge distribution. A complete characterization of the linear and nonlinear modes of the SASE FEL operation was performed. At saturation the FEL produces ultrashort pulses (30-100 fs FWHM) with a peak radiation power in the GW level and with full transverse coherence. The wavelength was tuned in the range of 95-105 nm.Entities:
Year: 2002 PMID: 11909361 DOI: 10.1103/PhysRevLett.88.104802
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161