W
Wilfried Buchmuller
Researcher at University of Hamburg
Publications - 183
Citations - 11132
Wilfried Buchmuller is an academic researcher from University of Hamburg. The author has contributed to research in topics: Gravitino & Neutrino. The author has an hindex of 51, co-authored 183 publications receiving 10414 citations.
Papers
More filters
Journal ArticleDOI
Leptogenesis for pedestrians
TL;DR: In this paper, an analytical description of the thermal leptogenesis process is presented, where the dependence on the neutrino mass parameters becomes transparent and the effect of all other scattering processes lies within the theoretical uncertainty of present calculations.
Journal ArticleDOI
Leptogenesis as the origin of matter
TL;DR: In this paper, the authors explore in some detail the hypothesis that the generation of a primordial lepton-antilepton asymmetry (Leptogenesis) early on in the history of the universe is the root cause for the origin of matter.
Journal ArticleDOI
Thermal production of gravitinos
TL;DR: In this paper, the gravitino production rate in supersymmetric QCD at high temperature to leading order in the gauge coupling was evaluated, and the results showed that gravitinos are the dominant part of cold dark matter.
Journal ArticleDOI
Physics interplay of the LHC and the ILC
Georg Weiglein,Sami Lehti,Geneviève Bélanger,Tao Han,David L. Rainwater,Massimiliano Chiorboli,Michael Ratz,M. Schumacher,P. Niezurawski,Stefano Moretti,Filip Moortgat,S. J. Asztalos,Rohini M. Godbole,Abdelhak Djouadi,G. Polesello,Werner Porod,Werner Porod,A.A. Giolo-Nicollerat,Alessia Tricomi,J.L. Hewett,M. Szleper,L. Zivkovic,Stephen Godfrey,Maria Krawczyk,Klaus Desch,Alexander Sherstnev,Dimitri Bourilkov,A. G. Akeroyd,Dirk Zerwas,M. Muhlleitner,T. Binoth,Maria Spiropulu,Alexander Nikitenko,A. Krokhotine,V. Bunichev,Tadas Krupovnickas,Peter Wienemann,T. Hurth,T. Hurth,A. De Roeck,S. De Curtis,Ritva Kinnunen,D. Grellscheid,U. Baur,J. Kalinowski,Gudrid Moortgat-Pick,Gudrid Moortgat-Pick,H. U. Martyn,Alexander Pukhov,C. Hugonie,U. Ellwanger,Daniel Tovey,Aleksander Filip Zarnecki,Thomas G. Rizzo,S. Slabospitsky,Jonathan L. Feng,Remi Lafaye,Sally Dawson,Diaz,Philip Bechtle,I.F. Ginzburg,Hooman Davoudiasl,Andreas Redelbach,J. Jiang,W. J. Stirling,Reinhold Rückl,Per Osland,S. Weinzierl,Fernando Quevedo,Laura Reina,Timothy Barklow,H. J. Schreiber,Andre Sopczak,Wilfried Buchmuller,Howard E. Haber,H. Pas,E. Lytken,Xerxes Tata,Howard Baer,Tsutomu T. Yanagida,Sabine Kraml,Sabine Kraml,Mayda Velasco,Francois Richard,E. K. U. Gross,A.F. Osorio,J. Guasch,Fawzi Boudjema,Stewart Boogert,Sven Heinemeyer,Sabine Riemann,D. Asner,Daniele Dominici,Victoria Jane Martin,J.F. Gunion,Marco Battaglia,Michael Spira,Doreen Wackeroth,David J. Miller,David J. Miller,Joan Sola,J. Gronberg,Zack Sullivan,A. Juste,Lynne H. Orr,Wolfgang Hollik,Heather E. Logan,Benjamin C. Allanach,Junji Hisano,Carlos E. M. Wagner,Carlos E. M. Wagner,Frank F. Deppisch,Tilman Plehn,F. Gianotti,Gianluca Cerminara,G.A. Blair,Wolfgang Kilian,Michael Dittmar,E. E. Boos,Kiyotomo Kawagoe,Alexander Belyaev,Koichi Hamaguchi,Børge Kile Gjelsten,Tim M. P. Tait,Klaus Mönig,Edmond L. Berger,P.M. Zerwas,Mihoko M. Nojiri +127 more
TL;DR: In this paper, the authors discuss the possible interplay between the Large Hadron Collider (LHC) and the International e(+)e(-) Linear Collider (ILC) in testing the Standard Model and in discovering and determining the origin of new physics.
Journal ArticleDOI
Physics Interplay of the LHC and the ILC
Georg Weiglein,Timothy Barklow,E. E. Boos,A. De Roeck,Klaus Kurt Desch,F. Gianotti,Rohini M. Godbole,J.F. Gunion,Howard E. Haber,S. Heinemeyer,J.L. Hewett,Kiyotomo Kawagoe,Klaus Mönig,Mihoko M. Nojiri,G. Polesello,Francois Richard,Sabine Riemann,W. J. Stirling,A. G. Akeroyd,Benjamin C. Allanach,D. M. Asner,S. J. Asztalos,Howard Baer,M. Battaglia,U. Baur,Philip Bechtle,Geneviève Bélanger,Alexander Belyaev,Edmond L. Berger,T. Binoth,G.A. Blair,Stewart Boogert,Fawzi Boudjema,Dimitri Bourilkov,Wilfried Buchmuller,V. Bunichev,Gianluca Cerminara,Massimiliano Chiorboli,Hooman Davoudiasl,Sally Dawson,S. De Curtis,Frank F. Deppisch,Marco Aurelio Diaz,Michael Dittmar,Abdelhak Djouadi,Daniele Dominici,U. Ellwanger,Jonathan L. Feng,I.F. Ginzburg,A. S. Giolo-Nicollerat,Børge Kile Gjelsten,Stephen Godfrey,David Grellscheid,J. Gronberg,Eugene P. Gross,J. Guasch,Koichi Hamaguchi,Tao Han,Junji Hisano,Wolfgang Hollik,Cyril Hugonie,Tobias Hurth,J. Jiang,A. Juste,J. Kalinowski,Wolfgang Kilian,Ritva Kinnunen,Sabine Kraml,Maria Krawczyk,A. Krokhotine,T. Krupovnickas,Remi Lafaye,Sami Lehti,Heather E. Logan,Else Lytken,Victoria Jane Martin,H.U. Martyn,David J. Miller,Stefano Moretti,F. Moortgat,Gudrid Moortgat-Pick,M. Muhlleitner,P. Niezurawski,Alexander Nikitenko,Lynne H. Orr,Per Osland,A.F. Osorio,H. Pas,Tilman Plehn,Werner Porod,Alexander Pukhov,Fernando Quevedo,D. Rainwater,Michael Ratz,Andreas Redelbach,Laura Reina,Tom Rizzo,Reinhold Rückl,H. J. Schreiber,Markus Schumacher,Alexander Sherstnev,S. Slabospitsky,Joan Sola,Andre Sopczak,Michael Spira,Maria Spiropulu,Zack Sullivan,Michal Szleper,Tim M. P. Tait,Xerxes Tata,Daniel Tovey,Alessia Tricomi,Mayda Velasco,Doreen Wackeroth,Carlos E. M. Wagner,S. Weinzierl,Peter Wienemann,Tsutomu T. Yanagida,Aleksander Filip Zarnecki,Dirk Zerwas,P.M. Zerwas,L. Zivkovic +121 more
TL;DR: In this article, the authors address the possible interplay between the Large Hadron Collider (LHC) and the International e+e- Linear Collider (ILC) in testing the Standard Model and in discovering and determining the origin of new physics.