P
Pavle Juranić
Researcher at Paul Scherrer Institute
Publications - 67
Citations - 1982
Pavle Juranić is an academic researcher from Paul Scherrer Institute. The author has contributed to research in topics: Laser & Free-electron laser. The author has an hindex of 21, co-authored 60 publications receiving 1608 citations. Previous affiliations of Pavle Juranić include University of Wisconsin-Madison & Western Michigan University.
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Journal ArticleDOI
The soft x-ray free-electron laser FLASH at DESY: beamlines, diagnostics and end-stations
Kai Tiedtke,Armin Azima,N. von Bargen,L. Bittner,S Bonfigt,S. Düsterer,Bart Faatz,Ulrike Frühling,Michael Gensch,Ch. Gerth,N. Guerassimova,U. Hahn,T. Hans,M. Hesse,K Honkavaar,U. Jastrow,Pavle Juranić,Svea Kapitzki,Barbara Keitel,T Kracht,Marion Kuhlmann,W B Li,Michael Martins,T. Nunez,Elke Plönjes,Harald Redlin,E.L. Saldin,Evgeny Schneidmiller,J. Schneider,Siegfried Schreiber,Nikola Stojanovic,Franz Tavella,Sven Toleikis,Rolf Treusch,H. Weigelt,M. Wellhöfer,H. Wabnitz,Mikhail Yurkov,Josef Feldhaus +38 more
TL;DR: The Free-electron LASer (FLASH) is a unique source for extremely bright ultra-short laser-like pulses tunable in a wide spectral range in the extreme ultraviolet and soft x-ray region as discussed by the authors.
Journal ArticleDOI
SwissFEL: The Swiss X-ray Free Electron Laser
Christopher J. Milne,Thomas Schietinger,M. Aiba,Arturo Alarcon,J. Alex,Alexander Anghel,Vladimir Arsov,Carl Beard,Paul Beaud,Simona Bettoni,M. Bopp,H. Brands,Manuel Brönnimann,Ingo Brunnenkant,Marco Calvi,A. Citterio,Paolo Craievich,Marta Csatari Divall,Mark Dällenbach,Michael D’Amico,Andreas Dax,Yunpei Deng,Alexander Dietrich,Roberto Dinapoli,Edwin Divall,Sladana Dordevic,Simon Ebner,Christian Erny,Hansrudolf Fitze,Uwe Flechsig,Rolf Follath,F. Frei,Florian Gärtner,Romain Ganter,Terence Garvey,Zheqiao Geng,I. Gorgisyan,C. Gough,A. Hauff,Christoph P. Hauri,Nicole Hiller,Tadej Humar,Stephan Hunziker,Gerhard Ingold,Rasmus Ischebeck,Markus Janousch,Pavle Juranić,M. Jurcevic,Maik Kaiser,Babak Kalantari,Roger Kalt,B. Keil,Christoph Kittel,Gregor Knopp,W. Koprek,Henrik T. Lemke,Thomas Lippuner,Daniel Llorente Sancho,Florian Löhl,C. Lopez-Cuenca,Fabian Märki,F. Marcellini,G. Marinkovic,Isabelle Martiel,Ralf Menzel,Aldo Mozzanica,Karol Nass,Gian Luca Orlandi,Cigdem Ozkan Loch,Ezequiel Panepucci,Martin Paraliev,Bruce D. Patterson,Bill Pedrini,Marco Pedrozzi,Patrick Pollet,Claude Pradervand,Eduard Prat,Peter Radi,Jean-Yves Raguin,S. Redford,Jens Rehanek,Julien Réhault,Sven Reiche,Matthias Ringele,J. Rittmann,Leonid Rivkin,Albert Romann,Marie Ruat,C. Ruder,Leonardo Sala,Lionel Schebacher,T. Schilcher,Volker Schlott,Thomas J. Schmidt,Bernd Schmitt,Xintian Shi,M. Stadler,L. Stingelin,Werner Sturzenegger,Jakub Szlachetko,D. Thattil,D. Treyer,A. Trisorio,Wolfgang Tron,S. Vetter,Carlo Vicario,Didier Voulot,Meitian Wang,Thierry Zamofing,Christof Zellweger,R. Zennaro,Elke Zimoch,Rafael Abela,Luc Patthey,Hans-Heinrich Braun +114 more
TL;DR: The SwissFEL X-ray Free Electron Laser (XFEL) facility as discussed by the authors started construction at the Paul Scherrer Institute (Villigen, Switzerland) in 2013 and will be ready to accept its first users in 2018 on the Aramis hard Xray branch.
Journal ArticleDOI
A compact and cost-effective hard X-ray free-electron laser driven by a high-brightness and low-energy electron beam
Eduard Prat,Rafael Abela,M. Aiba,Arturo Alarcon,J. Alex,Yunieski Arbelo,Christopher Arrell,Vladimir Arsov,Camila Bacellar,Camila Bacellar,Carl Beard,Paul Beaud,Simona Bettoni,Roger Biffiger,M. Bopp,Hans-Heinrich Braun,Marco Calvi,Ariana Cassar,Tine Celcer,Majed Chergui,Pavel Chevtsov,Claudio Cirelli,A. Citterio,Paolo Craievich,Marta Csatari Divall,Andreas Dax,Micha Dehler,Yunpei Deng,Alexander Dietrich,Philipp Dijkstal,Philipp Dijkstal,Roberto Dinapoli,Sladana Dordevic,Simon Ebner,Daniel Engeler,Christian Erny,Vincent Esposito,Vincent Esposito,Eugenio Ferrari,Uwe Flechsig,Rolf Follath,F. Frei,Romain Ganter,Terence Garvey,Zheqiao Geng,Alexandre Gobbo,C. Gough,A. Hauff,Christoph P. Hauri,Nicole Hiller,Stephan Hunziker,Martin Huppert,Gerhard Ingold,Rasmus Ischebeck,Markus Janousch,Philip J. M. Johnson,Steven L. Johnson,Steven L. Johnson,Pavle Juranić,M. Jurcevic,Maik Kaiser,Roger Kalt,B. Keil,Daniela Kiselev,Christoph Kittel,Gregor Knopp,W. Koprek,Michael Laznovsky,Henrik T. Lemke,Daniel Llorente Sancho,Florian Löhl,Alexander Malyzhenkov,Giulia F. Mancini,Giulia F. Mancini,Roman Mankowsky,F. Marcellini,G. Marinkovic,Isabelle Martiel,Fabian Märki,Christopher J. Milne,Aldo Mozzanica,Karol Nass,Gian Luca Orlandi,Cigdem Ozkan Loch,Martin Paraliev,Bruce D. Patterson,Luc Patthey,Bill Pedrini,Marco Pedrozzi,Claude Pradervand,Peter Radi,Jean-Yves Raguin,S. Redford,Jens Rehanek,Sven Reiche,Leonid Rivkin,Albert Romann,Leonardo Sala,Mathias Sander,Thomas Schietinger,T. Schilcher,Volker Schlott,Thomas J. Schmidt,Mike Seidel,M. Stadler,L. Stingelin,C. Svetina,D. Treyer,A. Trisorio,Carlo Vicario,Didier Voulot,A. Wrulich,Serhane Zerdane,Elke Zimoch +113 more
TL;DR: In this article, the first lasing results of SwissFEL, a hard X-ray free-electron laser (FEL) that recently came into operation at the Paul Scherrer Institute in Switzerland, were presented.
Journal ArticleDOI
Spatio-temporal coherence of free electron laser pulses in the soft x-ray regime.
Rolf Mitzner,B. Siemer,M. Neeb,T. Noll,Frank Siewert,S. Roling,M. Rutkowski,A. A. Sorokin,Mathias Richter,Pavle Juranić,Kai Tiedtke,Josef Feldhaus,Wolfgang Eberhardt,Helmut Zacharias +13 more
TL;DR: The temporal coherence properties of soft x-ray free electron laser pulses at FLASH are measured at 23.9 nm by interfering two time-delayed partial beams directly on a CCD camera with a non-monotonic decay, which can be rationalized by the presence of multiple pulse structure.
Journal ArticleDOI
Extreme ultraviolet laser excites atomic giant resonance.
Mathias Richter,M. Ya. Amusia,S. V. Bobashev,T. Feigl,Pavle Juranić,Michael Martins,A. A. Sorokin,Kai Tiedtke +7 more
TL;DR: It is suspected that the collective giant 4d resonance of xenon is the driving force behind the effect that arises in this spectral range and cannot be explained by the standard theories developed for optical strong-field phenomena.