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Theoretical Particle Physics at UC Santa Cruz

Theoretical Particle Physics at UC Santa Cruz. UC Santa Cruz Physics Graduate program visit day March 13, 2009. SCIPP Theory Group. Thomas Banks: supersymmetry , string theory, gravity, and the early universe Michael Dine: supersymmetry , string theory, and the early universe

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Theoretical Particle Physics at UC Santa Cruz

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  1. Theoretical Particle Physics at UC Santa Cruz UC Santa Cruz Physics Graduate program visit day March 13, 2009

  2. SCIPP Theory Group • Thomas Banks: supersymmetry, string theory, gravity, and the early universe • Michael Dine: supersymmetry, string theory, and the early universe • Howard Haber: Higgs bosons, collider physics, new physics beyond the Standard Model at the TeV energy scale (including supersymmetry) In addtion, Anthony Aguirre, Stefano Profumo and Joel Primack work on a variety of topics overlapping particle theory and astroparticle theory, including dark matter, early universe cosmology, inflation, …

  3. The Standard Model of Particle Physics The elementary particles consists of three generations of spin-1/2 quarks and leptons and the gauge bosons of SU(3)xSU(2)xU(1). Technically, massive neutrinos require an extension of the Standard Model, but most likely the relevant scale of the new physics lies way beyond the terascale.

  4. Origin of mass for elementary particles Naively, an SU(3)xSU(2)xU(1) gauge theory yields massless gauge bosons and massless quarks and leptons, in conflict with observation. The Standard Model introduces the Higgs mechanism for mass generation. The gauge invariance is spontaneously broken. In the simplest implementation, a spinless physical Higgs scalar is predicted.

  5. From Symmetry Magazine, volume 3, issue 6, August 2006

  6. Where is the Higgs boson?

  7. How good are the Standard Model predictions for physical observables?

  8. Research program 1: theory and phenomenology of Higgs bosons

  9. Research program 2: theory and phenomenology of TeV-scale supersymmetry

  10. Research program 3: Discovery and interpretation of new (TeV-scale) physics phenomena at future collider facilities. Large Hadron Collider (LHC): first collisions due in October, 2009 International Linear Collider (ILC): technical design under development

  11. Explorations of the TeV energy scale at future colliders (LHC and ILC) • Studies of the non-minimal Higgs sector • Precision measurements of new physics observables • How to identify the origin of new physics signals (overcoming the “confusion scenario”) • The physics case for the ILC • “Low-energy”footprints of lepton-number-violating physics

  12. My recent Ph.D. students and their thesis projects Douglas Pahel (2005): CP-Violating Effects in W and Z Boson Pair Production at the the ILC in the Minimal Supersymmetric Standard Model John Mason (2008): Hard supersymmetry-breaking “wrong-Higgs” couplings of the MSSM Deva O’Neil (2009): thesis based on two projects Basis-independent methods for the two-Higgs-doublet model. II. The significance of tan beta. The Basis-independent two-Higgs-doublet model. III: CP-Violation, Custodial Symmetry, and the oblique parameters S, T, and U

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