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Alexander Malyzhenkov
Researcher at Paul Scherrer Institute
Publications - 11
Citations - 191
Alexander Malyzhenkov is an academic researcher from Paul Scherrer Institute. The author has contributed to research in topics: Free-electron laser & Lasing threshold. The author has an hindex of 4, co-authored 11 publications receiving 74 citations.
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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
Single- and two-color attosecond hard x-ray free-electron laser pulses with nonlinear compression
Alexander Malyzhenkov,Yunieski Arbelo,Paolo Craievich,Philipp Dijkstal,Philipp Dijkstal,Eugenio Ferrari,Sven Reiche,Thomas Schietinger,Pavle Juranić,Eduard Prat +9 more
TL;DR: In this paper, the Coulomb interaction between the electrons of a highly compressed beam in the nonlinear regime was used for the generation of one and two-color ultra-short X-ray free-electron-laser pulses.
Journal ArticleDOI
Generation and Characterization of Intense Ultralow-Emittance Electron Beams for Compact X-Ray Free-Electron Lasers
Eduard Prat,Philipp Dijkstal,Philipp Dijkstal,M. Aiba,Simona Bettoni,Paolo Craievich,Eugenio Ferrari,Rasmus Ischebeck,Florian Löhl,Alexander Malyzhenkov,Gianluca Orlandi,Sven Reiche,Thomas Schietinger +12 more
TL;DR: Results of emittance measurements carried out at SwissFEL, a compact x-ray FEL facility at the Paul Scherrer Institute in Switzerland, are presented, including a description of the novel high-resolution measurement techniques and the optimization procedure.
Journal ArticleDOI
Demonstration of two-color x-ray free-electron laser pulses with a sextupole magnet
TL;DR: In this paper, the sextupole magnet was used to suppress the radiation from the bunch core, while keeping the head and the tail of the beam lasing, each at a different photon energy.
Journal ArticleDOI
High-resolution dispersion-based measurement of the electron beam energy spread
Eduard Prat,Philipp Dijkstal,Philipp Dijkstal,Eugenio Ferrari,Alexander Malyzhenkov,Sven Reiche +5 more
TL;DR: In this article, the authors proposed a method to measure the beam size at a dispersive location for different beam energies so that it is possible to disentangle the beam contribution related to the energy spread, the intrinsic beam size and the monitor resolution.