J. Bartels
University of Hamburg
5 Papers
204 Citations
J. Bartels is an academic researcher from University of Hamburg. The author has contributed to research in topics: HERA & Large Hadron Collider. The author has an hindex of 5, co-authored 5 publications.
Chat about Author
Papers
HERA and the LHC: A Workshop on the implications of HERA for LHC physics. Proceedings, Part B
Sergey Alekhin,Guido Altarelli,N. Amapane,Jeppe R. Andersen,V. Andreev,M. Arneodo,V. Avati,John Baines,Richard D. Ball,Andrea Banfi,S.P. Baranov,J. Bartels,Olaf Behnke,R. Bellan,Johannes Blümlein,H. Bottcher,S. Bolognesi,Maarten Boonekamp,Dimitri Bourilkov,Juraj Bracinik,Alessia Bruni,G. Bruni,Andy Buckley,A. Bunyatyan,Craig Buttar,Jon Butterworth,S. Butterworth,Matteo Cacciari,T. Carli,G. Cerminara,Sergei Chekanov,Marcello Ciafaloni,Dimitri Colferai,John Collins,Amanda Cooper-Sarkar,Gennaro Corcella,Massimo Corradi,B. E. Cox,R. Croft,Z. Czyczula,Andrea Dainese,Mrinal Dasgupta,G. Davatz,L. Del Debbio,Y. Delenda,A. De Roeck,Markus Diehl,S. Diglio,G. Dissertori,M. Dittmar,John Ellis,Kari J. Eskola,Tim Oliver Eynck,J. Feltesse,Fabrizio Ferro,Richard D Field,Jeffrey R. Forshaw,Stefano Forte,A. Geiser,Stefan Gieseke,Alexandre Glazov,Tanju Gleisberg,P. Golonka,E. Gotsman,G. Grindhammer,Monika Grothe,M. Groys,Alberto Guffanti,Gösta Gustafson,Claire Gwenlan,Stefan Höche,C. Hogg,Joey Huston,Giuseppe Iacobucci,Gunnar Ingelman,S. Jadach,Hannes Jung,J. Kalliopuska,Mikhail Kapishin,Borut Paul Kerševan,Valentin V. Khoze,Michael Klasen,Matthias Klein,Bernd A. Kniehl,V. J. Kolhinen,H. Kowalski,Gustav Kramer,Frank Krauss,S. Kretzer,Krzysztof Kutak,J. W. Lamsa,Leif Lönnblad,T. Lastovicka,G. Lastovicka-Medin,Eric Laenen,T. Lagouri,José I. Latorre,Nils Lavesson,V. Lendermann,E. Levin,Aharon Levy,A. V. Lipatov,Michael Lublinsky,L. Lytkin,T. Maki,Lorenzo Magnea,Fabio Maltoni,Michelangelo L. Mangano,U. Maor,Chiara Mariotti,N. Marola,Alan D. Martin,A. Meyer,Sven Moch,James Monk,Arthur Moraes,Andreas Morsch,L. Motyka,E. Naftali,P. R. Newman,A. Nikitenko,F. Oljemark,R. Orava,M. Ottela,K. Osterberg,Krisztian Peters,Fabrizio Petrucci,Andrea Piccione,Andrew Pilkington,Krzysztof Piotrzkowski,O. I. Piskounova,A. Proskuryakov,A. Prygarin,Jon Pumplin,K. Rabbertz,R. Ranieri,V. Ravindran,B. Reisert,E. Richter-Was,Lorenzo Rinaldi,P. Robbe,E. Rodrigues,Juan Rojo,H. Ruiz,Marta Ruspa,M. G. Ryskin,A. Sabio Vera,Gavin P. Salam,A. Schälicke,S. Schatzel,Thomas Schörner-Sadenius,I. Schienbein,F. P. Schilling,Svenja Schumann,Michael H. Seymour,Frank Siegert,Torbjörn Sjöstrand,Maciej Skrzypek,Jennifer A. Smith,Maria Smizanska,Hubert Spiesberger,F. Schrempp,Anna Stasto,Hasko Stenzel,W. J. Stirling,P. Szczypka,S. Tapprogge,C. Targett-Adams,Marek Tasevsky,Thomas Teubner,R. S. Thorne,A. Tonazzo,Alessandro Tricoli,N. Tuning,J. Turnau,U. Uwer,P. Van Mechelen,R. Venugopalan,Monica Verducci,Jos Vermaseren,Andreas Vogt,Ramona Vogt,B. F. L. Ward,Z. Was,G. Watt,Ben Waugh,Christian Weiser,M R Whalley,M. Wing,J. Winter,S. A. Yost,Giulia Zanderighi,N. P. Zotov +192 more
- 01 Dec 2005
TL;DR: The HERA electron-proton collider has collected 100 pb$^{-1}$ of data since its start-up in 1992, and recently moved into a high-luminosity operation mode, with upgraded detectors, aiming to increase the total integrated luminosity per experiment to more than 500 pb€ −1}$. HERA has been a machine of excellence for the study of QCD and the structure of the proton as discussed by the authors.
80
Proceedings of the workshop: HERA and the LHC workshop series on the implications of HERA for LHC physics
Hannes Jung,A. De Roeck,Z. J. Ajaltouni,S. Albino,G. Altarelli,F. Ambroglini,J. Anderson,G. Antchev,Michele Arneodo,P. Aspell,V. Avati,Manuel Bähr,Alessandro Bacchetta,M. G. Bagliesi,Richard D. Ball,Andrea Banfi,S.P. Baranov,Paolo Bartalini,J. Bartels,F. Bechtel,Vincenzo Berardi,Mirko Berretti,Guillaume Beuf,Maurizio Biasini,Isabella Bierenbaum,Johannes Blümlein,R. E. Blair,C. Bombonati,Maarten Boonekamp,U. Bottigli,Sarah Kate Boutle,M. Bozzo,E. Brucken,Juraj Bracinik,Alessia Bruni,Giacomo Bruno,Andrew Buckley,A. Bunyatyan,Helmut Burkhardt,Peter Bussey,A. Buzzo,Matteo Cacciari,F. Cafagna,M. Calicchio,Fabrizio Caola,M. G. Catanesi,P. Catastini,R. Cecchi,F. A. Ceccopieri,S. Cerci,Sergei Chekanov,Roberto Chierici,Marcello Ciafaloni,Maria Agnese Ciocci,V. Coco,D. Colferai,Amanda Cooper-Sarkar,Gennaro Corcella,Michal Czakon,A. Dainese,Mrinal Dasgupta,M. Deak,Mario Deile,P. A. Delsart,L. Del Debbio,C. Diaconu,Markus Diehl,E. Dimovasili,Michael Dittmar,I. Dremin,K. Eggert,Ralph Engel,V. Eremin,S. Erhan,C. Ewerz,Livio Fanò,J. Feltesse,Giancarlo Ferrera,F. Ferro,Richard D Field,Stefano Forte,Francisco Garcia,Achim Geiser,François Gelis,S. Giani,Stefan Gieseke,M. Gigg,Alexandre Glazov,K. Golec-Biernat,K. Goulianos,J. Grebenyuk,V. Greco,David Grellscheid,G. Grindhammer,Monika Grothe,Alberto Guffanti,Claire Gwenlan,V. Halyo,Keith Hamilton,Francesco Hautmann,J. Heino,Gudrun Heinrich,T. Hilden,K. Hiller,Jonathan Hollar,Xavier Janssen,S. Joseph,A. W. Jung,V. Juranek,J. Kašpar,O. Kepka,Valery A. Khoze,Ch. Kiesling,M. Klasen,Sebastian Klein,Bernd A. Kniehl,Albert Knutsson,J. Kopal,Gustav Kramer,Frank Krauss,V. Kundrát,K. Kurvinen,Krzysztof Kutak,Leif Lönnblad,S. Lami,G. Latino,José I. Latorre,Oluseyi Latunde-Dada,R. Lauhakangas,V. Lendermann,Piergiulio Lenzi,G. Li,A. K. Likhoded,A. V. Lipatov,E. Lippmaa,Milos Lokajicek,M. Lo Vetere,F. Lucas Rodríguez,G. Luisoni,E. Lytken,K. Muller,M. Macrí,G. Magazzu,A. Majhi,S. Majhi,Pierre Marage,L. Marti,Alan D. Martin,M. Meucci,David Milstead,S. Minutoli,A. Nischke,A. Moares,S. O. Moch,L. Motyka,T. Namsoo,Paul Newman,H. Niewiadomski,C. Nockles,E. Noschis,G. Notarnicola,J. Nystrand,Eraldo Oliveri,F. Oljemark,K. Osterberg,R. Orava,M. Oriunno,S. Osman,S. Ostapchenko,P. Palazzi,E. Pedreschi,A. V. Pereira,H. Perrey,J. Petajajarvi,T. Petersen,Andrea Piccione,T. Pierog,J. L. Pinfold,O. I. Piskounova,Simon Plätzer,M. Quinto,Z. Rurikova,E. Radermacher,Voica Radescu,E. Radicioni,F. Ravotti,G. Rella,Peter J. Richardson,E. Robutti,German Rodrigo,E. Rodrigues,M. Rogal,T. C. Rogers,Juan Rojo,P. Roloff,L. Ropelewski,C. Rosemann,Ch. Royon,G. Ruggiero,A. Rummel,Marta Ruspa,M. G. Ryskin,David Salek,W. Słomiński,Heimo Saarikko,A. Sabio Vera,T. Sako,Gavin P. Salam,Vladimir Saleev,C. Sander,G. Sanguinetti,A. Santroni,Th. Schorner-Sadenius,R. Schicker,Ingo Schienbein,W. B. Schmidke,F. Schwennsen,A. Scribano,G. Sette,Michael H. Seymour,Alexander Sherstnev,Torbjörn Sjöstrand,W. Snoeys,G. Somogyi,Lars Sonnenschein,Gregory Soyez,Hubert Spiesberger,F. Spinella,P. Squillacioti,Anna Stasto,A. Starodumov,Hasko Stenzel,Ph. Stephens,A. Ster,Diego Stocco,M. Strikman,C. Taylor,Thomas Teubner,Robert S. Thorne,Zoltan Laszlo Trocsanyi,Michele Treccani,D. Treleani,Luca Trentadue,A. Trummal,J. Tully,W. K. Tung,M. Turcato,N. Turini,Maria Ubiali,A. Valkarova,A. van Hameren,P. Van Mechelen,J.A.M. Vermaseren,Andreas Vogt,Bennie F.L. Ward,G. Watt,Bryan R. Webber,Ch. Weiss,Ch. White,J. Whitmore,Roger Wolf,J. Wu,A. Yagues-Molina,S. A. Yost,Giulia Zanderighi,N. P. Zotov,M. zur Nedden +266 more
- 30 Mar 2009
TL;DR: The implications of HERA for LHC physics were discussed in this article, where Parton Density Functions Multi-jet final states and energy flows Heavy quarks (charm and beauty) Diffraction Cosmic Rays Monte Carlos and Tools
78
•Posted Content
Proceedings of the workshop: HERA and the LHC workshop series on the implications of HERA for LHC physics
Hannes Jung,A. De Roeck,Z. J. Ajaltouni,S. Albino,G. Altarelli,F. Ambroglini,J. Anderson,G. Antchev,Michele Arneodo,P. Aspell,V. Avati,Manuel Bähr,Alessandro Bacchetta,M. G. Bagliesi,Richard D. Ball,Andrea Banfi,S.P. Baranov,Paolo Bartalini,J. Bartels,F. Bechtel,Vincenzo Berardi,Mirko Berretti,Guillaume Beuf,Maurizio Biasini,Isabella Bierenbaum,Johannes Blümlein,R. E. Blair,C. Bombonati,Maarten Boonekamp,U. Bottigli,Sarah Kate Boutle,M. Bozzo,E. Brucken,Juraj Bracinik,Alessia Bruni,Giacomo Bruno,Andrew Buckley,A. Bunyatyan,Helmut Burkhardt,Peter Bussey,A. Buzzo,Matteo Cacciari,F. Cafagna,M. Calicchio,Fabrizio Caola,M. G. Catanesi,P. Catastini,R. Cecchi,F. A. Ceccopieri,S. Cerci,Sergei Chekanov,Roberto Chierici,Marcello Ciafaloni,Maria Agnese Ciocci,V. Coco,D. Colferai,Amanda Cooper-Sarkar,Gennaro Corcella,Michal Czakon,A. Dainese,Mrinal Dasgupta,M. Deak,Mario Deile,P. A. Delsart,L. Del Debbio,C. Diaconu,Markus Diehl,E. Dimovasili,Michael Dittmar,I. Dremin,K. Eggert,Ralph Engel,V. Eremin,S. Erhan,C. Ewerz,Livio Fanò,J. Feltesse,Giancarlo Ferrera,F. Ferro,Richard D Field,Stefano Forte,Francisco Garcia,Achim Geiser,François Gelis,S. Giani,Stefan Gieseke,M. Gigg,Alexandre Glazov,K. Golec-Biernat,K. Goulianos,J. Grebenyuk,V. Greco,David Grellscheid,G. Grindhammer,Monika Grothe,Alberto Guffanti,Claire Gwenlan,V. Halyo,Keith Hamilton,Francesco Hautmann,J. Heino,Gudrun Heinrich,T. Hilden,K. Hiller,Jonathan Hollar,Xavier Janssen,S. Joseph,A. W. Jung,V. Juranek,J. Kašpar,O. Kepka,Valery A. Khoze,Ch. Kiesling,M. Klasen,Sebastian Klein,Bernd A. Kniehl,Albert Knutsson,J. Kopal,Gustav Kramer,Frank Krauss,V. Kundrát,K. Kurvinen,Krzysztof Kutak,Leif Lönnblad,S. Lami,G. Latino,José I. Latorre,Oluseyi Latunde-Dada,R. Lauhakangas,V. Lendermann,Piergiulio Lenzi,G. Li,A. K. Likhoded,A. V. Lipatov,E. Lippmaa,Milos Lokajicek,M. Lo Vetere,F. Lucas Rodríguez,G. Luisoni,E. Lytken,K. Muller,M. Macrí,G. Magazzu,A. Majhi,S. Majhi,Pierre Marage,L. Marti,Alan D. Martin,M. Meucci,David Milstead,S. Minutoli,A. Nischke,A. Moares,S. O. Moch,L. Motyka,T. Namsoo,Paul Newman,H. Niewiadomski,C. Nockles,E. Noschis,G. Notarnicola,J. Nystrand,Eraldo Oliveri,F. Oljemark,K. Osterberg,R. Orava,M. Oriunno,S. Osman,S. Ostapchenko,P. Palazzi,E. Pedreschi,A. V. Pereira,H. Perrey,J. Petajajarvi,T. Petersen,Andrea Piccione,T. Pierog,J. L. Pinfold,O. I. Piskounova,Simon Plätzer,M. Quinto,Z. Rurikova,E. Radermacher,Voica Radescu,E. Radicioni,F. Ravotti,G. Rella,Peter J. Richardson,E. Robutti,German Rodrigo,E. Rodrigues,M. Rogal,T. C. Rogers,Juan Rojo,P. Roloff,L. Ropelewski,C. Rosemann,Ch. Royon,G. Ruggiero,A. Rummel,Marta Ruspa,M. G. Ryskin,David Salek,W. Słomiński,Heimo Saarikko,A. Sabio Vera,T. Sako,Gavin P. Salam,Vladimir Saleev,C. Sander,G. Sanguinetti,A. Santroni,Th. Schorner-Sadenius,R. Schicker,Ingo Schienbein,W. B. Schmidke,F. Schwennsen,A. Scribano,G. Sette,Michael H. Seymour,Alexander Sherstnev,Torbjörn Sjöstrand,W. Snoeys,G. Somogyi,Lars Sonnenschein,Gregory Soyez,Hubert Spiesberger,F. Spinella,P. Squillacioti,Anna Stasto,A. Starodumov,Hasko Stenzel,Ph. Stephens,A. Ster,Diego Stocco,M. Strikman,C. Taylor,Thomas Teubner,Robert S. Thorne,Zoltan Laszlo Trocsanyi,Michele Treccani,D. Treleani,Luca Trentadue,A. Trummal,J. Tully,W. K. Tung,M. Turcato,N. Turini,Maria Ubiali,A. Valkarova,A. van Hameren,P. Van Mechelen,J.A.M. Vermaseren,Andreas Vogt,Bennie F.L. Ward,G. Watt,Bryan R. Webber,Ch. Weiss,Ch. White,J. Whitmore,Roger Wolf,J. Wu,A. Yagues-Molina,S. A. Yost,Giulia Zanderighi,N. P. Zotov,M. zur Nedden +266 more
TL;DR: The implications of HERA for LHC physics were discussed in this paper, where Parton Density Functions Multi-jet final states and energy flows Heavy quarks (charm and beauty) Diffraction Cosmic Rays Monte Carlos and Tools
58
•Posted Content
HERA and the LHC - A workshop on the implications of HERA for LHC physics: Proceedings - Part B
Sergey Alekhin,Guido Altarelli,N. Amapane,Jeppe R. Andersen,V. Andreev,M. Arneodo,V. Avati,John Baines,Richard D. Ball,Andrea Banfi,S.P. Baranov,J. Bartels,Olaf Behnke,R. Bellan,Johannes Blümlein,H. Bottcher,S. Bolognesi,Maarten Boonekamp,Dimitri Bourilkov,Juraj Bracinik,Alessia Bruni,G. Bruni,Andy Buckley,A. Bunyatyan,Craig Buttar,Jon Butterworth,S. Butterworth,Matteo Cacciari,T. Carli,G. Cerminara,Sergei Chekanov,Marcello Ciafaloni,Dimitri Colferai,John Collins,Amanda Cooper-Sarkar,Gennaro Corcella,Massimo Corradi,B. E. Cox,R. Croft,Z. Czyczula,Andrea Dainese,Mrinal Dasgupta,G. Davatz,L. Del Debbio,Y. Delenda,A. De Roeck,Markus Diehl,S. Diglio,G. Dissertori,M. Dittmar,John Ellis,Kari J. Eskola,Tim Oliver Eynck,J. Feltesse,Fabrizio Ferro,Richard D Field,Jeffrey R. Forshaw,Stefano Forte,A. Geiser,Stefan Gieseke,Alexandre Glazov,Tanju Gleisberg,P. Golonka,E. Gotsman,G. Grindhammer,Monika Grothe,M. Groys,Alberto Guffanti,Gösta Gustafson,Claire Gwenlan,Stefan Höche,C. Hogg,Joey Huston,Giuseppe Iacobucci,Gunnar Ingelman,S. Jadach,Hannes Jung,J. Kalliopuska,Mikhail Kapishin,Borut Paul Kerševan,Valentin V. Khoze,Michael Klasen,Matthias Klein,Bernd A. Kniehl,V. J. Kolhinen,H. Kowalski,Gustav Kramer,Frank Krauss,S. Kretzer,Krzysztof Kutak,J. W. Lamsa,Leif Lönnblad,T. Lastovicka,G. Lastovicka-Medin,Eric Laenen,T. Lagouri,José I. Latorre,Nils Lavesson,V. Lendermann,E. Levin,Aharon Levy,A. V. Lipatov,Michael Lublinsky,L. Lytkin,T. Maki,Lorenzo Magnea,Fabio Maltoni,Michelangelo L. Mangano,U. Maor,Chiara Mariotti,N. Marola,Alan D. Martin,A. Meyer,Sven Moch,James Monk,Arthur Moraes,Andreas Morsch,L. Motyka,E. Naftali,P. R. Newman,A. Nikitenko,F. Oljemark,R. Orava,M. Ottela,K. Osterberg,Krisztian Peters,Fabrizio Petrucci,Andrea Piccione,Andrew Pilkington,Krzysztof Piotrzkowski,O. I. Piskounova,A. Proskuryakov,A. Prygarin,Jon Pumplin,K. Rabbertz,R. Ranieri,V. Ravindran,B. Reisert,E. Richter-Was,Lorenzo Rinaldi,P. Robbe,E. Rodrigues,Juan Rojo,H. Ruiz,Marta Ruspa,M. G. Ryskin,A. Sabio Vera,Gavin P. Salam,A. Schälicke,S. Schatzel,Thomas Schörner-Sadenius,I. Schienbein,F. P. Schilling,Svenja Schumann,Michael H. Seymour,Frank Siegert,Torbjörn Sjöstrand,Maciej Skrzypek,Jennifer A. Smith,Maria Smizanska,Hubert Spiesberger,F. Schrempp,Anna Stasto,Hasko Stenzel,W. J. Stirling,P. Szczypka,S. Tapprogge,C. Targett-Adams,Marek Tasevsky,Thomas Teubner,R. S. Thorne,A. Tonazzo,Alessandro Tricoli,N. Tuning,J. Turnau,U. Uwer,P. Van Mechelen,R. Venugopalan,Monica Verducci,Jos Vermaseren,Andreas Vogt,Ramona Vogt,B. F. L. Ward,Z. Was,G. Watt,Ben Waugh,Christian Weiser,M R Whalley,M. Wing,J. Winter,S. A. Yost,Giulia Zanderighi,N. P. Zotov +192 more
TL;DR: The HERA electron-proton collider has collected 100 pb$^{-1}$ of data since its start-up in 1992, and recently moved into a high-luminosity operation mode, with upgraded detectors, aiming to increase the total integrated luminosity per experiment to more than 500 pb€ −1}$. HERA has been a machine of excellence for the study of QCD and the structure of the proton as mentioned in this paper.
25
Physics with e+e− linear colliders
Elena Accomando,Attilio Andreazza,H. Anlauf,Alessandro Ballestrero,Timothy Barklow,J. Bartels,A. Bartl,Marco Battaglia,W. Beenakker,Geneviève Bélanger,W. Bernreuther,J. Biebel,J. Binnewies,Johannes Blümlein,E. E. Boos,F. Borzumati,Fawzi Boudjema,A. Brandenburg,P. J. Bussey,Matteo Cacciari,Roberto Casalbuoni,A. Corsetti,S. De Curtis,F. Cuypers,G. Daskalakis,Aldo Deandrea,Ansgar Denner,M. Diehl,S. Dittmaier,Abdelhak Djouadi,Daniele Dominici,Herbert K. Dreiner,Helmut Eberl,Ulrich Ellwanger,R. Engel,K. Flöttmann,H. Franz,T. Gajdosik,Raoul Gatto,H. Genten,Rohini M. Godbole,G. Gounaris,Mario Greco,Jean-Francois Grivaz,D. Guetta,D. Haidt,Robert V. Harlander,H.J. He,W. Hollik,Katri Huitu,P. Igo-Kemenes,V. A. Ilyin,Patrick Janot,Fred Jegerlehner,M. Jezabek,B. Jim,J. Kalinowski,W. Kilian,B.R. Kim,T. Kleinwort,Bernd A. Kniehl,Michael Kramer,Gustav Kramer,Sabine Kraml,A. Krause,Maria Krawczyk,Alexander Kryukov,Jens H. Kuhn,Aristotelis Kyriakis,A. Leike,H. Lotter,Jukka Maalampi,W. Majerotto,C. Markou,M. I. Martínez,U. Martyn,Barbara Mele,D. J. Miller,Ramon Miquel,A. Nippe,H. Nowak,Thorsten Ohl,Per Osland,P. Overmann,G. Pancheri,A. A. Pankov,Costas G. Papadopoulos,N. Paver,A. Pietila,M. Peter,M. Pizzio,Tilman Plehn,M. Pohl,N. Polonsky,W. Porod,Alexander Pukhov,Martti Raidal,Sabine Riemann,Tord Riemann,K. Riesselmann,I. Riu,A. De Roeck,Janusz Rosiek,Reinhold Rückl,H. J. Schreiber,Daniel Schulte,R. Settles,Rezo Shanidze,S. Shichanin,E. Simopoulou,Torbjörn Sjöstrand,J. G. Smith,Andre Sopczak,Hubert Spiesberger,Thomas Teubner,C. Troncon,C. Vander Velde,Andreas Vogt,R. Vuopionper,Alexander Wagner,J. Ward,Max Weber,B. H. Wiik,G. W. Wilson,P.M. Zerwas +124 more
TL;DR: The physics potential of linear linear colliders has been discussed in this paper, where the authors describe the potential for the discovery of particles in supersymmetric extensions of the Standard Model, the spectrum of Higgs particles, the super-ymmetric partners of the electroweak gauge and Higgs bosons.