V
Vitaly Yakimenko
Researcher at SLAC National Accelerator Laboratory
Publications - 276
Citations - 6473
Vitaly Yakimenko is an academic researcher from SLAC National Accelerator Laboratory. The author has contributed to research in topics: Laser & Accelerator Test Facility. The author has an hindex of 36, co-authored 272 publications receiving 5492 citations. Previous affiliations of Vitaly Yakimenko include Brookhaven National Laboratory & Stanford University.
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Journal ArticleDOI
A Large Hadron Electron Collider at CERN
J. L. Abelleira Fernandez,J. L. Abelleira Fernandez,C. Adolphsen,A. Akay,H. Aksakal,Javier L. Albacete,Sergey Alekhin,Phillip Allport,Vladimir Andreev,Robert Appleby,Robert Appleby,E. Arikan,Néstor Armesto,Georges Azuelos,Georges Azuelos,M. Bai,D. Barber,D. Barber,Jochen Bartels,O. Behnke,Janna Katharina Behr,Alexander Belyaev,Alexander Belyaev,Ilan Ben-Zvi,N. Bernard,S. Bertolucci,S. Bettoni,Sudhansu S. Biswal,Johannes Blümlein,H. Böttcher,A. Bogacz,Chiara Bracco,Gerhard Brandt,Hans-Heinrich Braun,Stanley J. Brodsky,O. Brüning,Eugene Bulyak,A. Buniatyan,Helmut Burkhardt,Ilkay Turk Cakir,O. Cakir,Rama Calaga,V. Cetinkaya,E. Ciapala,R. Ciftci,Abbas Kenan Ciftci,Brian Cole,John Collins,O. Dadoun,J. B. Dainton,A. De Roeck,David D'Enterria,Alexey Dudarev,A. Eide,Rikard Enberg,E. Eroglu,Kari J. Eskola,Laurent Favart,M. Fitterer,Stefano Forte,Andrea Gaddi,Paolo Gambino,H. Garcia Morales,Thomas Gehrmann,Peter Gladkikh,Claudia Glasman,Rohini M. Godbole,Brennan Goddard,T. Greenshaw,Alberto Guffanti,Vadim Guzey,Vadim Guzey,Claire Gwenlan,Tao Han,Yue Hao,F. Haug,Werner Herr,Alain Hervé,Bernhard Holzer,Masaki Ishitsuka,M. Jacquet,B. Jeanneret,J. M. Jiménez,John Jowett,Hannes Jung,H. Karadeniz,Dmitry Kayran,A. Kilic,K. Kimura,Max Klein,Uta Klein,T. Kluge,F. Kocak,M. Korostelev,A. Kosmicki,P. Kostka,H. Kowalski,Gustav Kramer,D. Kuchler,M. Kuze,Tuomas Lappi,Paul Laycock,Evgeny Levichev,S. Levonian,Vladimir Litvinenko,Alessandra Lombardi,J. Maeda,Cyrille Marquet,Bruce Mellado,K. H. Mess,A. Milanese,S. O. Moch,I. Morozov,Y. Muttoni,S. Myers,S. Nandi,Zafer Nergiz,Paul Newman,Tsunehiko Omori,J. A. Osborne,E. Paoloni,Yannis Papaphilippou,C. Pascaud,Hannu Paukkunen,E. Perez,Tatiana Pieloni,E. Pilicer,Bernard Pire,R. Placakyte,A. Polini,Vadim Ptitsyn,Y. Pupkov,Voica Radescu,Sreerup Raychaudhuri,Louis Rinolfi,R. Rohini,Juan Rojo,Stephan Russenschuck,M. Sahin,Carlos A. Salgado,K. Sampei,Rodolfo Sassot,Emmanuel Sauvan,U. Schneekloth,T. Schörner-Sadenius,Daniel Schulte,A. Senol,Andrei Seryi,Peter Sievers,A.N. Skrinsky,W. H. Smith,Hubert Spiesberger,Anna Stasto,Mark Strikman,MJ Sullivan,Saleh Sultansoy,Yipeng Sun,Bernd Surrow,L. Szymanowski,P. Taels,I. Tapan,Timur Tasci,Enrico Tassi,H. Ten Kate,Juan Terron,H. Thiesen,L Thompson,L Thompson,Katsuo Tokushuku,R. Tomás García,Davide Tommasini,Dejan Trbojevic,N. Tsoupas,Joachim Tückmantel,S. Turkoz,T. N. Trinh,Konrad Tywoniuk,Gokhan Unel,J. Urakawa,P. VanMechelen,Alessandro Variola,Raymond Veness,A. Vivoli,P.D. Vobly,Jakub Wagner,Rainer Wallny,S. Wallon,G. Watt,Christian Weiss,Urs Achim Wiedemann,U. Wienands,F. Willeke,Bo-Wen Xiao,Vitaly Yakimenko,Af Zarnecki,Z. Zhang,Frank Zimmermann,R. Zlebcik,Fabian Zomer +198 more
TL;DR: The Large Hadron Electron Collider (LHeC) as discussed by the authors was designed to achieve an integrated luminosity of O(100 ),fb$^{-1}, which is the cleanest high resolution microscope of mankind.
Journal ArticleDOI
A Large Hadron Electron Collider at CERN: Report on the Physics and Design Concepts for Machine and Detector
J. Abelleira Fernandez,Chris Adolphsen,A. Akay,H. Aksakal,Javier L. Albacete,Sergey Alekhin,Phillip Allport,V. P. Andreev,Robert Appleby,E. Arikan,Néstor Armesto,Georges Azuelos,M. Bai,D. Barber,Jochen Bartels,O. Behnke,Janna Katharina Behr,Alexander Belyaev,Ilan Ben-Zvi,Nathan Rogers Bernard,S. Bertolucci,S. Bettoni,Sudhansu S. Biswal,Johannes Blümlein,H. Böttcher,A. Bogacz,Chiara Bracco,Gerhard Brandt,H. M. Braun,Stanley J. Brodsky,Oliver Brüning,Eugene Bulyak,A. Buniatyan,Harald Burkhardt,Ilkay Turk Cakir,O. Cakir,Rama Calaga,V. Cetinkaya,E. Ciapala,R. Ciftci,Abbas Kenan Ciftci,Brian Cole,John Collins,O. Dadoun,J. B. Dainton,A. De Roeck,David D'Enterria,Alexey Dudarev,A. Eide,Rikard Enberg,E. Eroglu,Kari J. Eskola,Laurent Favart,M. Fitterer,Stefano Forte,Andrea Gaddi,Paolo Gambino,H. Garcia Morales,Thomas Gehrmann,Peter Gladkikh,Claudia Glasman,Rohini M. Godbole,Brennan Goddard,T. Greenshaw,Alberto Guffanti,Vadim Guzey,Claire Gwenlan,Tao Han,Yue Hao,F. Haug,W. Herr,A. Hervé,Bernhard Holzer,Masaki Ishitsuka,M. Jacquet,B. Jeanneret,J. M. Jimenez,John Jowett,Hannes Jung,H. Karadeniz,Dmitry Kayran,A. Kilic,K. Kimura,Matthias Klein,Uta Klein,T. Kluge,F. Kocak,M. Korostelev,A. Kosmicki,P. Kostka,H. Kowalski,Gustav Kramer,D. Kuchler,M. Kuze,Tuomas Lappi,Paul Laycock,Evgeny Levichev,S. Levonian,Vladimir Litvinenko,Alessandra Lombardi,J. Maeda,C. Marquet,Stephen Maxfield,Bruce Mellado,K. H. Mess,A. Milanese,S. O. Moch,I. Morozov,Y. Muttoni,Stephen Myers,Soumitra Nandi,Zafer Nergiz,Paul Newman,T. Omori,John Osborne,E. Paoloni,Yannis Papaphilippou,C. Pascaud,Hannu Paukkunen,Emmanuelle Perez,Tatiana Pieloni,E. Pilicer,Bernard Pire,R. Placakyte,A. Polini,Vadim Ptitsyn,Y. Pupkov,Voica Radescu,Sreerup Raychaudhuri,Louis Rinolfi,R. Rohini,Juan Rojo,Stephan Russenschuck,Mehmet Özgür Sahin,Carlos A. Salgado,K. Sampei,Rodolfo Sassot,Emmanuel Sauvan,U. Schneekloth,T. Schörner-Sadenius,Daniel Schulte,A. Senol,Andrei Seryi,Peter Sievers,A.N. Skrinsky,W. H. Smith,Hubert Spiesberger,Anna Stasto,Mark Strikman,M. K. Sullivan,S. Sultansoy,Yipeng Sun,Bernd Surrow,L. Szymanowski,P. Taels,I. Tapan,A. T. Tasci,Enrico Tassi,H. Ten Kate,Juan Terron,H. Thiesen,L. F. Thompson,Katsuo Tokushuku,R. Tomás García,Davide Tommasini,Dejan Trbojevic,N. Tsoupas,Joachim Tückmantel,S. Turkoz,T. N. Trinh,Konrad Tywoniuk,Gokhan Unel,J. Urakawa,P. VanMechelen,Alessandro Variola,Raymond Veness,A. Vivoli,P.D. Vobly,Jakub Wagner,Rainer Wallny,S. Wallon,G. Watt,Christian Weiss,Urs Achim Wiedemann,U. Wienands,F. Willeke,Bo-Wen Xiao,Vitaly Yakimenko,Af Zarnecki,Zhongshi Zhang,Frank Zimmermann,Radek Zlebcik,Fabian Zomer +192 more
TL;DR: The Large Hadron Electron Collider (LHeC) as discussed by the authors is a new collider for particle and nuclear physics, in which a newly built electron beam of up to possibly 140 GeV, energy collides with the intense hadron beams of the LHC.
Journal ArticleDOI
High-efficiency acceleration of an electron beam in a plasma wakefield accelerator
Michael Litos,Erik Adli,Erik Adli,Weiming An,Christine Clarke,C. E. Clayton,Sebastien Corde,Jean-Pierre Delahaye,R. J. England,Alan Fisher,J. Frederico,Spencer Gessner,S. Z. Green,Mark Hogan,Chan Joshi,Wei Lu,K. A. Marsh,Warren Mori,Patric Muggli,Navid Vafaei-Najafabadi,D.R. Walz,Glenn J. White,Ziran Wu,Vitaly Yakimenko,Gerald Yocky +24 more
TL;DR: This acceleration of a distinct bunch of electrons containing a substantial charge and having a small energy spread with both a high accelerating gradient and a high energy-transfer efficiency represents a milestone in the development of plasma wakefield acceleration into a compact and affordable accelerator technology.
Journal ArticleDOI
High-gain harmonic-generation free-electron laser.
Li-Hua Yu,M. Babzien,Ilan Ben-Zvi,Louis F. DiMauro,A. Doyuran,William Graves,Erik D. Johnson,Samuel Krinsky,R. Malone,Igor Pogorelsky,John Skaritka,George Rakowsky,L. Solomon,Xuelong Wang,M. Woodle,Vitaly Yakimenko,Sandra Biedron,John Galayda,Efim Gluskin,J. Jagger,V. Sajaev,Isaac Vasserman +21 more
TL;DR: The approach uses a laser-seeded free-electron laser to produce amplified, longitudinally coherent, Fourier transform-limited output at a harmonic of the seed laser, with the ultimate goal of extending the approach to provide an intense, highly coherent source of hard x-rays.
Journal ArticleDOI
Observation of Graphene Bubbles and Effective Mass Transport under Graphene Films
Elena Stolyarova,Daniil Stolyarov,Kirill I. Bolotin,Sunmin Ryu,Li Liu,Kwang Taeg Rim,Martin Klima,Mark S. Hybertsen,Igor Pogorelsky,I. V. Pavlishin,Karl Kusche,James Hone,Philip Kim,Horst Stormer,Vitaly Yakimenko,George W. Flynn +15 more
TL;DR: In this article, the authors demonstrate the robustness of single layer graphene membranes, which are capable of containing mesoscopic volumes of gas and effective mass transport at the graphene/SiO2 interface.