W
W. H. Hartung
Researcher at Fermilab
Publications - 15
Citations - 420
W. H. Hartung is an academic researcher from Fermilab. The author has contributed to research in topics: Beam (structure) & Electron gun. The author has an hindex of 6, co-authored 14 publications receiving 399 citations.
Papers
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Journal ArticleDOI
First observation of self-amplified spontaneous emission in a free-electron laser at 109 nm wavelength
J. Andruszkow,B. Aune,Valeri Ayvazyan,N. Baboi,R. Bakker,V. Balakin,D. Barni,A. Bazhan,M. Bernard,A. Bosotti,J. C. Bourdon,W. Brefeld,R. Brinkmann,S. Buhler,Jean-Paul Carneiro,M. Castellano,P. Castro,L. Catani,S. Chel,Y. Cho,S. Choroba,E. R. Colby,W. Decking,P.K. Den Hartog,M. Desmons,Martin Dohlus,D. A. Edwards,H. T. Edwards,Bart Faatz,J. Feldhaus,M. Ferrario,Michael J. Fitch,Klaus Flöttmann,M. Fouaidy,A. Gamp,T. Garvey,Ch. Gerth,M. Geitz,Efim Gluskin,V. Gretchko,U. Hahn,W. H. Hartung,D. Hubert,M. Hüning,R. Ischebek,M. Jablonka,J. M. Joly,M. Juillard,Tomas Junquera,P. Jurkiewicz,A. Kabel,J. Kahl,H. Kaiser,Thorsten Kamps,V. V. Katelev,J. L. Kirchgessner,M. Körfer,L. Kravchuk,G. Kreps,Jacek Krzywinski,T. Lokajczyk,R. Lange,B. Leblond,M. Leenen,J. Lesrel,Matthias Liepe,A. Liero,T. Limberg,R. Lorenz,Lu Hui Hua,Lu Fu Hai,C. Magne,M. Maslov,G. Materlik,A. Matheisen,J. Menzel,Paolo Michelato,W.-D. Möller,A. Mosnier,U. C. Müller,Olivier Napoly,A. Novokhatski,M. Omeich,Hasan Padamsee,Carlo Pagani,F. Peters,B. Petersen,Paolo Pierini,J. Pflüger,Philippe Piot,B. Phung Ngoc,Lukasz Plucinski,D. Proch,K. Rehlich,Sven Reiche,D. Reschke,I. Reyzl,James Rosenzweig,Jörg Rossbach,S. Roth,E.L. Saldin,Wolfgang Sandner,Z. Sanok,Holger Schlarb,Gerhard Schmidt,Peter Schmüser,Jochen R. Schneider,Evgeny Schneidmiller,H. J. Schreiber,Siegfried Schreiber,Petra Schütt,Jacek Sekutowicz,Luca Serafini,Daniele Sertore,Stefan Setzer,S. Simrock,B. Sonntag,B. Sparr,Frank Stephan,V. Sytchev,S. Tazzari,F. Tazzioli,Maury Tigner,Martin Timm,M. Tonutti,Emil Trakhtenberg,Rolf Treusch,D. Trines,V. Verzilov,T. Vielitz,V. Vogel,G. V. Walter,Rainer Wanzenberg,Thomas Weiland,H. Weise,J. Weisend,M. Wendt,M. Werner,Meredith M. White,Ingo Will,S. Wolff,Mikhail Yurkov,K. Zapfe,P. Zhogolev,F. Zhou +144 more
TL;DR: The first observation of self-amplified spontaneous emission (SASE) in a free-electron laser (FEL) in the vacuum ultraviolet regime at 109 nm wavelength is presented.
Proceedings ArticleDOI
First results of the Fermilab high-brightness RF photoinjector
Jean-Paul Carneiro,R.A. Carrigan,Mark Champion,P.L. Colestock,H. Edwards,J.D. Fuerst,W. H. Hartung,K. Koepke,M. Kuchnir,James Santucci,Linda Spentzouris,Michael J. Fitch,A. C. Melissinos,Paolo Michelato,Carlo Pagani,Daniele Sertore,N. Barov,James Rosenzweig +17 more
TL;DR: The TITF photoinjector (TTF RF Gun) was tested at Fermilab in September and October 1998 and installed at DESY in November 1998, and produced its first beam in March 1999.
Journal ArticleDOI
Transverse and longitudinal beam dynamics studies at the Fermilab photoinjector
Jean-Paul Carneiro,N. Barov,H. T. Edwards,Michael J. Fitch,W. H. Hartung,Klaus Floettmann,Siegfried Schreiber,M. Ferrario +7 more
TL;DR: In this paper, the transverse emittance of electron bunches of 1-12 nC charge with an energy of 16-18 MeV was investigated for a number of beam line optics conditions.
Journal ArticleDOI
Electro-optic measurement of the wake fields of a relativistic electron beam.
Michael J. Fitch,A. C. Melissinos,P.L. Colestock,Jean-Paul Carneiro,H. T. Edwards,W. H. Hartung +5 more
TL;DR: Measurements are presented for both the longitudinal and radial components of the field and relate them to the wall impedance to show how strong electromagnetic fields induced in a relativistic electron bunch traverses a structure can be related to wall impedance.
Beam Transport, Acceleration and Compression Studies in the Fermilab High-Brightness Photoinjector
Jean-Paul Carneiro,R.A. Carrigan,Mark Champion,A. Cianchi,E.R. Colby,P.L. Colestock,H.T. Edwards,J.D. Fuerst,W. H. Hartung,K. P. Koepke,M. Kuchnir,Linda Spentzouris +11 more
TL;DR: In this paper, a photoinjector is constructed in order to produce a pulse train of up to 800 electron bunches, each with 8 nC of charge and a 3.5 ps rms bunch length.