Anomalous correlation between quantum efficiency and transverse momentum spread in semiconductor cathode photoemission
Peng Huang,Houjun Qian,Ye Chen,Matthias Gross,Igor Isaev,Ch. Koschitzki,Mikhail Krasilnikov,Shankar Lal,Sven Lederer,Xiangkun Li,O. Lishilin,D. Melkumyan,Laura Monaco,Paolo Michelato,Raffael Niemczyk,A. Oppelt,Daniele Sertore,H. Shaker,G. Shu,Frank Stephan,Chuanxiang Tang,Grygorii Vashchenko +21 more
TL;DR: In this article , a negative correlation between QE and TMS was observed for the first time on a semiconductor photocathode, and two models were proposed to explain such an anomalous correlation.
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Abstract: The next generation of accelerator based scientific facilities, such as the megahertz repetition rate free electron laser and electron-ion collider, relies on photoelectron sources of high peak and high average brightness. Therefore, photocathodes with both low transverse momentum spread (TMS) and high quantum efficiency (QE) are required. The conventional positive correlation between QE and TMS leads to a tradeoff between peak and average brightness. In this study, a negative correlation between QE and TMS is experimentally observed for the first time on a semiconductor photocathode (${\mathrm{Cs}}_{2}\mathrm{Te}$). Two models are proposed to explain such an anomalous correlation. One model considers the junction between the semiconductor cathode and the metal substrate in the case of slightly excessive cesium deposition, and the other model considers different Cs-Te composites. Our studies inspire a new way to break the conventional correlation between QE and TMS, and open a new perspective to advance the beam brightness frontiers.
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References
Electron-Ion Collider: The next QCD frontier: Understanding the glue that binds us all
Alberto Accardi,Alberto Accardi,Javier L. Albacete,M. Anselmino,Néstor Armesto,Elke Aschenauer,Alessandro Bacchetta,Daniël Boer,W. K. Brooks,T. P. Burton,N.-B. Chang,W.-T. Deng,W.-T. Deng,A. Deshpande,Markus Diehl,Adrian Dumitru,R. Dupré,R. Ent,Salvatore Fazio,Haiyan Gao,Vadim Guzey,H. Hakobyan,Yue Hao,D. Hasch,R. J. Holt,T. Horn,M. Huang,Andrew Hutton,C. E. Hyde,J. Jalilian-Marian,S. R. Klein,B. Kopeliovich,Yuri V. Kovchegov,K. S. Kumar,Krešimir Kumerički,M. A.C. Lamont,Tuomas Lappi,J. H. Lee,Y. Lee,Eugene Levin,Eugene Levin,F.-L. Lin,Vladimir Litvinenko,T. W. Ludlam,Cyrille Marquet,Zein-Eddine Meziani,Robert McKeown,Andreas Metz,Richard G. Milner,Vasiliy Morozov,Alfred H. Mueller,Berndt Müller,Berndt Müller,Dieter Müller,P. Nadel-Turonski,Hannu Paukkunen,A. Prokudin,V. Ptitsyn,Xin Qian,Jian-Wei Qiu,M. Ramsey-Musolf,T. Roser,F. Sabatié,Rodolfo Sassot,G. Schnell,Peter Schweitzer,E. P. Sichtermann,Marco Stratmann,Mark Strikman,M. Sullivan,S. Taneja,S. Taneja,T. Toll,D. Trbojevic,T. Ullrich,Raju Venugopalan,S. Vigdor,Werner Vogelsang,Christian Weiss,Bo-Wen Xiao,Feng Yuan,Y.-H. Zhang,Liang Zheng,Liang Zheng +83 more
TL;DR: In this article, the science case of an Electron-Ion Collider (EIC), focused on the structure and interactions of gluon-dominated matter, with the intent to articulate it to the broader nuclear science community, is presented.
The physics and chemistry of the Schottky barrier height
TL;DR: The formation of the Schottky barrier height (SBH) is a complex problem because of the dependence of the SBH on the atomic structure of the metal-semiconductor (MS) interface as mentioned in this paper.
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Electron Ion Collider: The Next QCD Frontier - Understanding the glue that binds us all
Alberto Accardi,Alberto Accardi,Javier L. Albacete,M. Anselmino,Néstor Armesto,Elke Aschenauer,Alessandro Bacchetta,Daniël Boer,W. K. Brooks,T. P. Burton,N.-B. Chang,W.-T. Deng,W.-T. Deng,A. Deshpande,Markus Diehl,Adrian Dumitru,R. Dupré,R. Ent,Salvatore Fazio,Haiyan Gao,Vadim Guzey,H. Hakobyan,Yue Hao,D. Hasch,R. J. Holt,T. Horn,M. Huang,Andrew Hutton,C. E. Hyde,J. Jalilian-Marian,S. R. Klein,B. Kopeliovich,Yuri V. Kovchegov,K. S. Kumar,Krešimir Kumerički,M. A.C. Lamont,Tuomas Lappi,J. H. Lee,Y. Lee,Eugene Levin,Eugene Levin,F.-L. Lin,Vladimir Litvinenko,T. W. Ludlam,Cyrille Marquet,Zein-Eddine Meziani,Robert McKeown,Andreas Metz,Richard G. Milner,Vasiliy Morozov,Alfred H. Mueller,Berndt Müller,Berndt Müller,Dieter Müller,P. Nadel-Turonski,Hannu Paukkunen,A. Prokudin,V. Ptitsyn,Xin Qian,Jian-Wei Qiu,M. Ramsey-Musolf,T. Roser,F. Sabatié,Rodolfo Sassot,G. Schnell,Peter Schweitzer,E. P. Sichtermann,Marco Stratmann,Mark Strikman,M. Sullivan,S. Taneja,S. Taneja,T. Toll,D. Trbojevic,T. Ullrich,Raju Venugopalan,S. Vigdor,Werner Vogelsang,Christian Weiss,Bo-Wen Xiao,Feng Yuan,Y.-H. Zhang,Liang Zheng,Liang Zheng +83 more
TL;DR: The science case of an Electron-Ion Collider (EIC), focused on the structure and interactions of gluon-dominated matter, with the intent to articulate it to the broader nuclear science community was presented in this article.
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A MHz-repetition-rate hard X-ray free-electron laser driven by a superconducting linear accelerator
W. Decking,S. Abeghyan,P. Abramian,A. Abramsky,A. Aguirre,C. Albrecht,Pedro Alou,Massimo Altarelli,P. Altmann,K. Amyan,V. Anashin,E. Apostolov,K. Appel,D. Auguste,Valeri Ayvazyan,Stefan Baark,F. Babies,N. Baboi,P. Bak,Vladimir Balandin,R. Baldinger,B. Baranasic,S. Barbanotti,O. Belikov,V. Belokurov,L. Belova,V. Belyakov,S. Berry,M. Bertucci,Bolko Beutner,A. Block,M. Blöcher,T. Böckmann,Christian Bohm,M. Böhnert,Valerii Bondar,E. Bondarchuk,M. Bonezzi,P. Borowiec,C. Bösch,U. Bösenberg,Angelo Bosotti,R. Böspflug,M. Bousonville,E. Boyd,Y. Bozhko,A. Brand,Julien Branlard,S. Briechle,Frank Brinker,S. Brinker,R. Brinkmann,Sandor Brockhauser,Oleg Brovko,H. Brück,A. Brüdgam,L. Butkowski,T. Büttner,J. Calero,E. Castro-Carballo,G. Cattalanotto,J. Charrier,J. Chen,A. Cherepenko,V. Cheskidov,M. Chiodini,Andy Chong,Stefan Choroba,Maciej Chorowski,D. Churanov,Wojciech Cichalewski,M. Clausen,W. Clement,C. Cloué,J.A. Cobos,Nicola Coppola,S. Cunis,Krzysztof Czuba,Marie Kristin Czwalinna,B. D’Almagne,J. Dammann,H. Danared,A. de Zubiaurre Wagner,A. Delfs,T. Delfs,Florian Dietrich,T. Dietrich,M. Dohlus,M. Dommach,A. Donat,X. Dong,N. Doynikov,M. Dressel,M. Duda,P. Duda,H. J. Eckoldt,Wajid Ehsan,J. Eidam,Frank Eints,Claudia Engling,U. Englisch,A. Ermakov,K. Escherich,J. Eschke,E.L. Saldin,M. Faesing,A. Fallou,Matthias Felber,Michael Fenner,B. Fernandes,José María Fernández,S. Feuker,K. Filippakopoulos,Klaus Floettmann,V. Fogel,M. Fontaine,A. Frances,I. Freijo Martin,Wolfgang Freund,T. Freyermuth,M. Friedland,Lars Fröhlich,M. Fusetti,J. Fydrych,A. Gallas,O. Garcia,Luis Garcia-Tabares,Gianluca Geloni,Natalia Gerasimova,Christopher Gerth,P. Geßler,V. Gharibyan,M. Gloor,J. Głowinkowski,A. Goessel,Z. Gołębiewski,Nina Golubeva,W. Grabowski,W. Graeff,Alexander Grebentsov,Mariusz Grecki,T. Grevsmuehl,Matthias Gross,Uwe Grosse-Wortmann,Jan Grünert,S. Grunewald,P. Grzegory,G. Feng,H. Guler,G. Gusev,J.L. Gutierrez,L. Hagge,Mathias Hamberg,R. Hanneken,E. Harms,Ingmar Hartl,A. Hauberg,Steffen Hauf,J. Hauschildt,Jay Hauser,J. Havlicek,A. Hedqvist,N. Heidbrook,F. Hellberg,D. Henning,O. Hensler,T. Hermann,A. Hidvégi,Martin Hierholzer,H. Hintz,F. Hoffmann,M. Hoffmann,Matthias C. Hoffmann,Y. Holler,M. Hüning,A. Ignatenko,Markus Ilchen,A. Iluk,J. Iversen,M. Izquierdo,L. Jachmann,N. Jardon,U. Jastrow,Kay Jensch,J. Jensen,M. Jeżabek,M. Jidda,H. Jin,N. Johannson,R. Jonas,W. Kaabi,D. Kaefer,R. Kammering,H. Kapitza,Suren Karabekyan,S. Karstensen,K. Kasprzak,V. Katalev,D. Keese,B. Keil,M. Kholopov,M. Killenberger,B. Kitaev,Y. Klimchenko,R. Klos,L. Knebel,Andreas Koch,M. Koepke,S. Köhler,W. Köhler,N. Kohlstrunk,Z. Konopkova,A. Konstantinov,W. Kook,W. Koprek,M. Körfer,O. Korth,A. Kosarev,K. Kosiński,Denis Kostin,Y. Kot,A. Kotarba,Tomasz Kozak,V. Kozak,R. Kramert,Mikhail Krasilnikov,A. A. Krasnov,Bernward Krause,L. Kravchuk,Olaf Krebs,R. Kretschmer,J. Kreutzkamp,O. Kröplin,K. Krzysik,Gero Kube,H. Kuehn,Naresh Kujala,V. Kulikov,V. Kuzminych,D. La Civita,M. Lacroix,Thorsten Lamb,A. Lancetov,Mats Larsson,D. Le Pinvidic,Sven Lederer,T. Lensch,D. Lenz,A. Leuschner,F. Levenhagen,Y. Li,J. Liebing,Lutz Lilje,T. Limberg,Dirk Lipka,Benno List,J. Liu,S. Liu,B. Lorbeer,J. Lorkiewicz,H. H. Lu,F. Ludwig,K. Machau,W. Maciocha,C. Madec,C. Magueur,C. Maiano,I. Maksimova,K. Malcher,Theophilos Maltezopoulos,E. Mamoshkina,Bastian Manschwetus,F. Marcellini,G. Marinkovic,Todd J. Martínez,H. Martirosyan,W. Maschmann,M. Maslov,A. Matheisen,Uros Mavrič,J. Meißner,K. Meissner,Marc Messerschmidt,N. Meyners,G. Michalski,Paolo Michelato,N. Mildner,M. Moe,F. Moglia,Christian Mohr,S. Mohr,Wolf-Dietrich Möller,M. Mommerz,Laura Monaco,C. Montiel,M. Moretti,I. Morozov,P. Morozov,D. Mross,James Mueller,C. Müller,Jost Müller,K. Müller,Javier Munilla,Astrid Münnich,V. Muratov,Olivier Napoly,B. Näser,N. Nefedov,Reinhard Neumann,Rudolf Neumann,N. Ngada,D. Noelle,F. Obier,I. Okunev,Jesus A. Oliver,Mathieu Omet,Anne Oppelt,A. Ottmar,M. Oublaid,Carlo Pagani,R. Paparella,V. Paramonov,C. Peitzmann,J. Penning,A. Perus,Falko Peters,Brian Petersen,A. K. Petrov,Ilia Petrov,Sven Pfeiffer,J. Pflüger,S. Philipp,Y. Pienaud,Paolo Pierini,S. Pivovarov,Marc Planas,E. Pławski,M. Pohl,J. Polinski,Vladimir Popov,Sandrine Prat,J. Prenting,Gerd Priebe,Heinrich Pryschelski,K. Przygoda,E. Pyata,B. Racky,A. Rathjen,W. Ratuschni,S. Regnaud-Campderros,K. Rehlich,D. Reschke,C. Robson,J. Roever,M. Roggli,Jens Rothenburg,Eugeniusz Rusiński,Radoslaw Rybaniec,H. Sahling,M. Salmani,Liubov Samoylova,D. Sanzone,F. Saretzki,O. Sawlanski,Joern Schaffran,Holger Schlarb,M. Schlösser,Volker Schlott,Carla Schmidt,F. Schmidt-Foehre,M. Schmitz,Manuela Schmökel,T. Schnautz,Evgeny Schneidmiller,Matthias Scholz,B. Schöneburg,J. Schultze,C. Schulz,A. Schwarz,Jacek Sekutowicz,D. Sellmann,E. Semenov,Svitozar Serkez,Daniele Sertore,Nadeem Shehzad,P. Shemarykin,L. Shi,M. Sienkiewicz,Dominik Sikora,M. Sikorski,Alessandro Silenzi,C. Simon,W. Singer,X. Singer,Harald Sinn,K. Sinram,N. Skvorodnev,P. Smirnow,T. Sommer,A. A. Sorokin,M. Stadler,M. Steckel,Bernd Steffen,Nicolai Steinhau-Kühl,Frank Stephan,M. Stodulski,M. Stolper,Alexey Sulimov,R. Susen,J. Świerblewski,Cezary Sydlo,Evgeny Syresin,V. Sytchev,Janusz Szuba,N. Tesch,Jan-Hendrik Thie,A. Thiebault,K. Tiedtke,D. Tischhauser,J. Tolkiehn,Sergey Tomin,F. Tonisch,F. Toral,I. Torbin,A. Trapp,D. Treyer,G. Trowitzsch,T. Trublet,Thomas Tschentscher,F. Ullrich,Maurizio Vannoni,P. Varela,Geogin Varghese,Grygorii Vashchenko,Miroslav Vasic,C. Vazquez-Velez,A. Verguet,S. Vilcins-Czvitkovits,R. Villanueva,B. Visentin,Michele Viti,Elmar Vogel,E. Volobuev,R. Wagner,Nicholas Walker,T. Wamsat,Henning Weddig,G. Weichert,H. Weise,R. Wenndorf,Matthias Werner,R. Wichmann,C. Wiebers,Mateusz Wiencek,Tim Wilksen,Ingo Will,Lutz Winkelmann,M. Winkowski,K. Wittenburg,A. Witzig,P. Wlk,Torsten Wohlenberg,M. Wojciechowski,F. Wolff-Fabris,G. Wrochna,Krzysztof Wrona,M. Yakopov,B. Yang,F. Yang,Mikhail Yurkov,Igor Zagorodnov,Peter Zalden,A. Zavadtsev,D. Zavadtsev,A. Zhirnov,A. Zhukov,Volker Ziemann,A. Zolotov,N. Zolotukhina,Falco Zummack,D. Zybin +481 more
TL;DR: The European XFEL as discussed by the authors is a hard X-ray free-electron laser (FEL) based on a highelectron-energy superconducting linear accelerator, which allows for the acceleration of many electron bunches within one radio-frequency pulse of the accelerating voltage and, in turn, for the generation of a large number of hard Xray pulses.
Mega-electron-volt ultrafast electron diffraction at SLAC National Accelerator Laboratory
Stephen Weathersby,Garth Brown,Martin Centurion,T. Chase,Ryan Coffee,Jeff Corbett,J. Eichner,Josef Frisch,Alan Fry,Markus Gühr,Nick Hartmann,C. Hast,Robert Hettel,Renee K. Jobe,Erik Jongewaard,James Lewandowski,Renkai Li,Aaron M. Lindenberg,Igor Makasyuk,Justin May,D. McCormick,M. N. Nguyen,Alexander H. Reid,Xiaozhe Shen,Klaus Sokolowski-Tinten,Theodore Vecchione,Sharon Vetter,Jihuai Wu,Jie Yang,Hermann A. Dürr,Xijie Wang +30 more
TL;DR: The SLAC MeV UED system operates at 120-Hz repetition rate with outstanding performance, including the reciprocal space resolution, temporal resolution, and machine stability.