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Minimal Supersymmetric Standard Model (MSSM) SM: 28 bosonic d.o.f. & 90 (96) fermionic d.o.f. SUSY: # of fermions = # of bosonsN=1 SUSY: There are no particles.

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Presentation on theme: "Minimal Supersymmetric Standard Model (MSSM) SM: 28 bosonic d.o.f. & 90 (96) fermionic d.o.f. SUSY: # of fermions = # of bosonsN=1 SUSY: There are no particles."— Presentation transcript:

1 Minimal Supersymmetric Standard Model (MSSM) SM: 28 bosonic d.o.f. & 90 (96) fermionic d.o.f. SUSY: # of fermions = # of bosonsN=1 SUSY: There are no particles in the SM that can be superpartners Even number of the Higgs doublets – min = 2 Cancellation of axial anomalies (in each generation) Higgsinos -1+1=0 SUSY associates known bosons with new fermions and known fermions with new bosons

2 Particle Content of the MSSM sleptons leptons squarksquarks Higgses { higgsinos {

3 The MSSM Lagrangian The Yukawa Superpotential Yukawa couplingsHiggs mixing term These terms are forbidden in the SM Superfields Violate:Lepton numberBaryon number

4 R-parity The consequences: The superpartners are created in pairs The lightest superparticle is stable The lightest superparticle (LSP) should be neutral - the best candidate is neutralino (photino or higgsino) It can survive from the Big Bang and form the Dark matter in the Universe B - Baryon Number L - Lepton Number S - Spin The Usual Particle : R = + 1 SUSY Particle : R = - 1

5 Interactions in the MSSM

6 Creation of Superpartners at colliders Annihilation channel Gluon fusion, ee, qq scattering and qg scattering channels

7 Decay of Superpartners squarks sleptons chargino neutralino gluino Final sates

8 Spontaneous Breaking of SUSY if and only if Energy

9 Soft SUSY Breaking Hidden sector MSSM SUSY Messengers Gravitons, gauge, gauginos, etc scalar fields gauginos Over 100 of free parameters ! Breaking via F and D terms in a hidden sector

10 Soft SUSY Breaking SUGRAS-dilaton, T-moduli gravitino mass Gauge mediationScalar singlet S Messenger Φ gravitino mass gauginosquark

11 MSSM Parameter Space Five universal soft parameters: versusand in the SM mSUGRA Universality hypothesis (gravity is colour and flavour blind): Soft parameters are equal at Planck (GUT) scale Three gauge couplings Three (four) Yukawa matrices The Higgs mixing parameter Soft SUSY breaking terms Three gauge couplings Three (four) Yukawa matrices The Higgs mixing parameter Soft SUSY breaking terms

12 Mass Spectrum

13

14 SUSY Higgs Bosons 4=2+2=3+ 1 8=4+4=3+ 5

15 The Higgs Potential Minimization Solution At the GUT scale No SSB in SUSY theory !

16 Higgs Boson’s Masses

17 The Higgs Bosons Masses CP-odd neutral Higgs A CP-even charged Higgses H CP-even neutral Higgses h,H Radiative corrections

18 Renormalization Group Eqns

19 RG Eqns for the Soft Masses

20 Radiative EW Symmetry Breaking Due to RG controlled running of the mass terms from the Higgs potential they may change sign and trigger the appearance of non-trivial minimum leading to spontaneous breaking of EW symmetry - this is called Radiative EWSB

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