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Progress in Particle and Nuclear Physics, 1991
Abstract Some topics related to possible extensions of the minimal standard model as well as a possible non-trivial nonperturbative dynamics of the electroweak interactions are discussed.
H. B. Nielsen, Colin D. Froggatt
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Abstract Some topics related to possible extensions of the minimal standard model as well as a possible non-trivial nonperturbative dynamics of the electroweak interactions are discussed.
H. B. Nielsen, Colin D. Froggatt
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2006
The standard model (SM) consists of the confining color gauge theory SU(3) for strong interactions and the spontaneously broken electroweak gauge theory SU(2)L ×U(1)Y. In this subsection, we introduce the SM, concentrating on the issues relevant for our string orbifold construction and phenomenological issues after the discovery of the Higgs boson.
Kang Sin Choi, Jihn E. Kim
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The standard model (SM) consists of the confining color gauge theory SU(3) for strong interactions and the spontaneously broken electroweak gauge theory SU(2)L ×U(1)Y. In this subsection, we introduce the SM, concentrating on the issues relevant for our string orbifold construction and phenomenological issues after the discovery of the Higgs boson.
Kang Sin Choi, Jihn E. Kim
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Beyond the Standard Model [PDF]
Physica Scripta, 2013 The status of searches for physics beyond the Standard Model is reviewed, in the light of the data from the Large Hadron Collider runs at 7 and 8 TeV centre-of-mass energy.
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Lattice gauge theory for physics beyond the Standard Model
European Physical Journal A, 2019.This document is one of a series of white papers from the USQCD Collaboration. Here, we discuss opportunities for lattice field theory research to make an impact on models of new physics beyond the Standard Model, including composite Higgs, composite ...
R. Brower +10 more
semanticscholar +1 more source
2020
The Standard Model (SM) is a set of theories that describe fundamental particle physics and the interactions of all known elementary particles, except gravity. Kick-started by Sheldon Glashow’s discovery of combining electromagnetic and weak interactions in 1961, it has evolved since then into its current form that we know today.
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The Standard Model (SM) is a set of theories that describe fundamental particle physics and the interactions of all known elementary particles, except gravity. Kick-started by Sheldon Glashow’s discovery of combining electromagnetic and weak interactions in 1961, it has evolved since then into its current form that we know today.
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1992
The outstanding problems of the Standard Model of particle physics can conveniently be classified into 3 main categories. The most immediate is that of Mass: why are the quark, lepton and electroweak gauge boson masses non-zero? And why are they so small: mw/mp ∼ 10-10? The answer to the first question is presumably some variant of the Higgs mechanism,
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The outstanding problems of the Standard Model of particle physics can conveniently be classified into 3 main categories. The most immediate is that of Mass: why are the quark, lepton and electroweak gauge boson masses non-zero? And why are they so small: mw/mp ∼ 10-10? The answer to the first question is presumably some variant of the Higgs mechanism,
openaire +2 more sources