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Supersymmetry in Particle Physics. Outline. 1. What is SUSY 2. Basics of SUSY 3. The MSSM 4.Constrained MSSM 5. SUSY Searches 6. SUSY DM. Unification Paradigm. GUT.

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  1. Supersymmetry in Particle Physics Outline 1. What is SUSY 2. Basics of SUSY 3. The MSSM 4.Constrained MSSM 5. SUSY Searches 6. SUSY DM

  2. Unification Paradigm GUT • Unification of strong, weak and electromagnetic interactions within Grand Unified Theories is the new step in unification of all forces of Nature • Creation of a unified theory of everything based on string paradigm seems to be possible D=10

  3. What is SUSY? • Supersymmetry is a boson-fermion symmetry • that is aimed to unify all forces in Nature including • gravity within a singe framework • Modern views on supersymmetry in particle physics • are based on string paradigm, though low energy • manifestations of SUSY can be found (?) at modern • colliders and in non-accelerator experiments First papers in 1971-1972 No evidence in particle physics yet

  4. Motivation of SUSY in Particle Physics • Unification with Gravity • Unification with Gravity • Unification of gauge couplings • Solution of the hierarchy problem • Dark matter in the Universe • Superstrings Unification of matter (fermions) with forces (bosons) naturally arises from an attempt to unify gravity with the other interactions Local supersymmetry = general relativity !

  5. Motivation of SUSY in Particle Physics • Unification of gauge couplings Running of the strong coupling

  6. Motivation of SUSY RG Equations Unification of the Coupling Constants in the SM and in the MSSM Input Output SUSY yields unification!

  7. Motivation of SUSY • Solution of the Hierarchy Problem Cancellation of quadratic terms Destruction of the hierarchy by radiative corrections SUSY may also explain the origin of the hierarchy due to radiative mechanism

  8. Motivation of SUSY • Dark Matter in the Universe The flat rotation curves of spiral galaxies provide the most direct evidence for the existence of large amount of the dark matter. Spiral galaxies consist of a central bulge and a very thin disc, and surrounded by an approximately spherical halo of dark matter SUSY provides a candidate for the Dark matter – a stable neutral particle

  9. Cosmological Constraints New precise cosmological data • Supernova Ia explosion • CMBR thermal fluctuations (recent news from WMAP ) Hot DM (not favoured by galaxy formation) Dark Matter in the Universe: Cold DM (rotation curves of Galaxies) SUSY

  10. Superalgebra Grassmannian parameters SUSY Generators The only possible graded Lie algebra that mixes integer and half-integer spins and changes statistics

  11. Quantum States Quantum states: Vacuum = Energy helicity Total # of states:

  12. SUSY Multiplets scalar spinor helicity -1/2 0 1/2 Chiral multiplet # of states 1 2 1 helicity Vector multiplet -1 -1/2 1/2 1 # of states 1 1 1 1 spinor vector Members of a supermultiplet are called superpartners For renormalizable theories (YM) spin For (super)gravity

  13. Simplest (N=1) SUSY Multiplets Bosons and Fermions come in pairs Spin 0 Spin 1/2 Spin 1/2 Spin 1 Spin 3/2 Spin 2 scalar gravitino chiral fermion graviton vector majorana fermion

  14. SUSY Transformation N=1 SUSY Chiral supermultiplet: parameter of SUSY transformation (spinor) spin=0 spin=1/2 Auxiliary field (unphysical d.o.f. needed to close SYSY algebra ) SUSY multiplets Superfiled in Superspace Expansion over grassmannian parameter superfield component fields

  15. Gauge superfields Gauge superfield Field strength tensor Gauge transformation Wess-Zumino gauge Covariant derivatives physical fields

  16. How to write SUSY Lagrangians 1st step Take your favorite Lagrangian written in terms of fields 2nd step Replace 3rd step Replace Grassmannian integration in superspace

  17. Superfield Lagrangians Grassmannian integration in superspace Matter fields Superpotential Gauge fields Gauge transformation Gauge invariant interaction

  18. Gauge Invariant SUSY Lagrangian Superfields Components Potential

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