D
Daniel Mohler
Researcher at Fermilab
Publications - 29
Citations - 2292
Daniel Mohler is an academic researcher from Fermilab. The author has contributed to research in topics: Quark & Meson. The author has an hindex of 13, co-authored 22 publications receiving 1357 citations. Previous affiliations of Daniel Mohler include University of Mainz & GSI Helmholtz Centre for Heavy Ion Research.
Papers
More filters
Journal ArticleDOI
The anomalous magnetic moment of the muon in the Standard Model
T. Aoyama,Nils Asmussen,M. Benayoun,Johan Bijnens,Tom Blum,M. Bruno,I. Caprini,C. M. Carloni Calame,Marco Cè,Marco Cè,Marco Cè,Gilberto Colangelo,F. Curciarello,Henryk Czyz,I. Danilkin,M. Davier,Christine Davies,M. Della Morte,S.I. Eidelman,Aida X. El-Khadra,Aida X. El-Khadra,Antoine Gérardin,D. Giusti,Maarten Golterman,Steven Gottlieb,V. Gülpers,Franziska Hagelstein,Masashi Hayakawa,Gregorio Herdoiza,D. W. Hertzog,A. Hoecker,Martin Hoferichter,Martin Hoferichter,B.-L. Hoid,Renwick J. Hudspith,Renwick J. Hudspith,F. Ignatov,Taku Izubuchi,Fred Jegerlehner,Luchang Jin,A. Keshavarzi,T. Kinoshita,T. Kinoshita,Bastian Kubis,A. Kupich,A. Kupść,Laetitia Laub,Christoph Lehner,Christoph Lehner,Laurent Lellouch,I.B. Logashenko,Bogdan Malaescu,Kim Maltman,Kim Maltman,Marina Marinkovic,Marina Marinkovic,Pere Masjuan,Aaron S. Meyer,Harvey B. Meyer,Harvey B. Meyer,T. Mibe,K. Miura,K. Miura,K. Miura,Stefan E. Müller,M. Nio,D. Nomura,Andreas Nyffeler,Vladimir Pascalutsa,M. Passera,E. Perez del Rio,Santiago Peris,Antonin Portelli,Massimiliano Procura,C. F. Redmer,B. L. Roberts,Pablo Sanchez-Puertas,S. I. Serednyakov,B.A. Shwartz,Silvano Simula,D. Stöckinger,H. Stöckinger-Kim,Peter Stoffer,Thomas Teubner,R. S. Van de Water,Marc Vanderhaeghen,Marc Vanderhaeghen,G. Venanzoni,G. von Hippel,Hartmut Wittig,Hartmut Wittig,Zhiqing Zhang,M.N. Achasov,A. Bashir,Nuno Cardoso,Bipasha Chakraborty,E.-H. Chao,J. Charles,Andreas Crivellin,Andreas Crivellin,O. Deineka,A. Denig,A. Denig,Carleton DeTar,Cesareo A. Dominguez,A. E. Dorokhov,V. P. Druzhinin,Gernot Eichmann,M. Fael,Christian S. Fischer,Elvira Gamiz,Z. Gelzer,Jeremy Green,S. Guellati-Khelifa,D. Hatton,Nils Hermansson-Truedsson,S. Holz,B. Hörz,M. Knecht,Jonna Koponen,Andreas S. Kronfeld,Jack Laiho,S. Leupold,P. B. Mackenzie,W. J. Marciano,Craig McNeile,Daniel Mohler,Daniel Mohler,J. Monnard,Ethan T. Neil,A. V. Nesterenko,Konstantin Ottnad,Vladyslav Pauk,A. E. Radzhabov,E. de Rafael,K. Raya,Andreas Risch,Antonio Rodríguez-Sánchez,Pablo Roig,T. San José,T. San José,E. P. Solodov,Robert L. Sugar,K. Yu. Todyshev,Arkady Vainshtein,A. Vaquero Avilés-Casco,Esther Weil,Jonas Wilhelm,Richard Williams,A. S. Zhevlakov +149 more
TL;DR: The current status of the Standard Model calculation of the anomalous magnetic moment of the muon is reviewed in this paper, where the authors present a detailed account of recent efforts to improve the calculation of these two contributions with either a data-driven, dispersive approach, or a first-principle, lattice approach.
Journal ArticleDOI
The anomalous magnetic moment of the muon in the Standard Model
T. Aoyama,Nils Asmussen,M. Benayoun,Johan Bijnens,Tom Blum,M. Bruno,I. Caprini,C. M. Carloni Calame,Marco Cè,Marco Cè,Marco Cè,Gilberto Colangelo,F. Curciarello,Henryk Czyz,I. Danilkin,M. Davier,Christine Davies,M. Della Morte,S.I. Eidelman,Aida X. El-Khadra,Aida X. El-Khadra,Antoine Gérardin,D. Giusti,Maarten Golterman,Steven Gottlieb,V. Gülpers,Franziska Hagelstein,Masashi Hayakawa,Gregorio Herdoiza,D. W. Hertzog,A. Hoecker,Martin Hoferichter,Martin Hoferichter,B.-L. Hoid,Renwick J. Hudspith,Renwick J. Hudspith,F. Ignatov,Taku Izubuchi,Fred Jegerlehner,Luchang Jin,A. Keshavarzi,T. Kinoshita,T. Kinoshita,Bastian Kubis,A. Kupich,A. Kupść,Laetitia Laub,Christoph Lehner,Christoph Lehner,Laurent Lellouch,I.B. Logashenko,Bogdan Malaescu,Kim Maltman,Kim Maltman,Marina Marinkovic,Marina Marinkovic,Pere Masjuan,Aaron S. Meyer,Harvey B. Meyer,Harvey B. Meyer,T. Mibe,K. Miura,K. Miura,K. Miura,Stefan E. Müller,M. Nio,D. Nomura,Andreas Nyffeler,Vladimir Pascalutsa,M. Passera,E. Perez del Rio,Santiago Peris,Antonin Portelli,Massimiliano Procura,C. F. Redmer,B. L. Roberts,Pablo Sanchez-Puertas,S. I. Serednyakov,B.A. Shwartz,Silvano Simula,D. Stöckinger,H. Stöckinger-Kim,Peter Stoffer,Thomas Teubner,R. S. Van de Water,Marc Vanderhaeghen,Marc Vanderhaeghen,G. Venanzoni,G. von Hippel,Hartmut Wittig,Hartmut Wittig,Zhiqing Zhang,M.N. Achasov,A. Bashir,Nuno Cardoso,Bipasha Chakraborty,E.-H. Chao,J. Charles,Andreas Crivellin,Andreas Crivellin,O. Deineka,A. Denig,A. Denig,Carleton DeTar,Cesareo A. Dominguez,A. E. Dorokhov,V. P. Druzhinin,Gernot Eichmann,M. Fael,Christian S. Fischer,Elvira Gamiz,Z. Gelzer,Jeremy Green,S. Guellati-Khelifa,D. Hatton,Nils Hermansson-Truedsson,S. Holz,B. Hörz,M. Knecht,Jonna Koponen,Andreas S. Kronfeld,Jack Laiho,S. Leupold,P. B. Mackenzie,W. J. Marciano,Craig McNeile,Daniel Mohler,Daniel Mohler,J. Monnard,Ethan T. Neil,A. V. Nesterenko,Konstantin Ottnad,Vladyslav Pauk,A. E. Radzhabov,E. de Rafael,K. Raya,Andreas Risch,Antonio Rodríguez-Sánchez,Pablo Roig,T. San José,T. San José,E. P. Solodov,Robert L. Sugar,K. Yu. Todyshev,Arkady Vainshtein,A. Vaquero Avilés-Casco,Esther Weil,Jonas Wilhelm,Richard Williams,A. S. Zhevlakov +149 more
TL;DR: The current status of the Standard Model calculation of the anomalous magnetic moment of the muon has been reviewed in this paper, where the authors present a detailed account of recent efforts to improve the calculation of these two contributions with either a data-driven, dispersive approach, or a first-principle, lattice-QCD approach.
Journal ArticleDOI
$D_{s0}^*(2317)$ Meson and $D$-Meson-Kaon Scattering from Lattice QCD
TL;DR: The scalar meson D*(s0)(2317) is found 37(17) MeV below the DK threshold in a lattice simulation of the J(P)=0(+) channel using, for the first time, both DK as well as s¯c interpolating fields.
Journal ArticleDOI
Dsmesons withDKandD*Kscattering near threshold
TL;DR: In this paper, the effect of nearby $DK$ and ${D}^{*}K$ thresholds on the sub-threshold states using lattice QCD was explored, where meson-meson interpolators were also included in the correlation functions.
Journal ArticleDOI
Coupled channel analysis of the rho meson decay in lattice QCD
TL;DR: In this article, a variational basis with a number of $\overline{q}q$ and $\ensuremath{\pi}\ensureMath{\pi}$ lattice interpolating fields with quantum numbers of the resonance was employed to extract the discrete energy spectrum in a finite volume.