G
Greg W. Anderson
Researcher at Ohio State University
Publications - 28
Citations - 1660
Greg W. Anderson is an academic researcher from Ohio State University. The author has contributed to research in topics: Supersymmetry & Superpartner. The author has an hindex of 19, co-authored 27 publications receiving 1608 citations. Previous affiliations of Greg W. Anderson include Massachusetts Institute of Technology & Lawrence Berkeley National Laboratory.
Papers
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Journal ArticleDOI
Electroweak phase transition and baryogenesis.
TL;DR: Baryogenesis at the electroweak phase transition is tenable in minimal extensions of the standard model with one Higgs doublet because the rate of anomalous baryon-number violation is an exponentially sensitive function of 〈\ensuremath{\varphi}${〉}}_{\mathit{T}}$.
Journal ArticleDOI
Systematic SO(10) operator analysis for fermion masses.
Greg W. Anderson,Savas Dimopoulos,Lawrence J. Hall,Lawrence J. Hall,Stuart Raby,Glenn D. Starkman +5 more
TL;DR: The minimal set of fermion mass operators consistent with low-energy data is determined by exploiting the full power of SO(10) to relate up, down, and charged lepton mass matrices and obtaining predictions for seven of the mass and mixing parameters.
Journal ArticleDOI
Measures of fine tuning
TL;DR: In this paper, the authors proposed new criteria for quantifying fine tuning that can be used to place upper limits on superpartner masses with greater fidelity, and applied their criteria to the minimal supersymmetric extension of the standard model, and found that the scale of supersymmetry breaking can be larger than previous methods indicate.
Posted Content
Report of the SUGRA Working Group for run II of the Tevatron
V. Barger,Tao Han,M. Gold,G.C. Cho,Y. Wang,Greg W. Anderson,J. T. White,Pran Nath,Aurore Savoy-Navarro,D. Chang,E. Accomando,S. Blessing,J. Lykken,S. Mani,M. Brhlik,W. Bokhari,Chunhui Chen,Wai-Yee Keung,R. Oishi,N. Polonksy,R. Demina,M. B. Magro,Kaoru Hagiwara,Maria Spiropulu,K. Hikasa,James Done,K. Ono,Y. Kato,B. W. Harris,Patrizia Azzi,E. Flattum,P. Quintana,J. Feng,David Saltzberg,C. Holck,H.C. Cheng,Stephen Mrenna,Michael Klasen,C. Kao,Gerardo Ganis,S. Abel,Tim M. P. Tait,M. Worcester,Eduardo De Moraes Gregores,Damien M. Pierce,R. Arnowitt,Piotr H. Chankowski,A. Pompos,M. Roco,Marcela Carena,Caleb Smith,Stephen J. Parke,Apostolos Pilaftsis,M. Paterno,T. Blazek,Sarah Catherine Eno,Teruki Kamon,Michelangelo L. Mangano,Pedro G Mercadante,Wim Beenakker,R. Szalapski,D. Norman,Micheal S. Berger,Konstantin Matchev,Jonathan Bagger,Howard Baer,Jane Nachtman,B. Tannenbaum,Frank Paige,Edmond L. Berger,Andrei Nomerotski,Michael Kramer,Stephan Lammel,Laurent Duflot,R.J. Zhang,Tilman Plehn,Y. Seiya,Michael Spira,Stefan Pokorski,Zack Sullivan,H.H. Williams,N. Bruner,S. D. Worm,M. Zielinski,T.J. Li,D. Chakraborty,Bhaskar Dutta,Alexander Belyaev,Ojp Eboli,Toby Falk,Doreen Wackeroth,Maxwell Chertok,D. R. Claes,Mihoko M. Nojiri +93 more
TL;DR: Barger et al. as mentioned in this paper presented an analysis of the discovery reach for supersymmetric particles at the upgraded Tevatron collider, assuming that SUSY breaking results in universal soft breaking parameters at the grand unification scale.
Journal ArticleDOI
Measures of fine tuning
TL;DR: In this article, the authors proposed new criteria for quantifying fine tuning that can be used to place upper limits on superpartner masses with greater fidelity, and applied their criteria to the minimal supersymmetric extension of the standard model, and found that the scale of supersymmetry breaking can be larger than previous methods indicate.