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Predictions of the MSO 10 SM : dark matter and more … Stuart Raby Bonn, Germany August 29, 2005 COSMO 05 w/ R. Dermisek, L. Roszkowski & R.R, de Austri.

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Presentation on theme: "Predictions of the MSO 10 SM : dark matter and more … Stuart Raby Bonn, Germany August 29, 2005 COSMO 05 w/ R. Dermisek, L. Roszkowski & R.R, de Austri."— Presentation transcript:

1 Predictions of the MSO 10 SM : dark matter and more … Stuart Raby Bonn, Germany August 29, 2005 COSMO 05 w/ R. Dermisek, L. Roszkowski & R.R, de Austri hep-ph/0304101 & hep-ph/o507233

2 Outline  Minimal SO(10) SUSY Model    analysis  Dark Matter + WMAP data  Light Higgs mass  B s ->      Direct & indirect detection  Conclusions

3 MSO 10 SM Fit t,b,tau requires TM

4 Roughly ½ comes from running & EWSB

5  Gauge coupling unification  Yukawa unification  Inverted scalar mass hierarchy  Suppresses flavor & CP violation  Nucleon decay MSO 10 SM TM

6 MSO 10 SM  Extend to 3 family model in 4D ( R. Dermisek & SR, hep-ph/0507045 )  Extend to orbifold GUT in 5D ( H.D. Kim, L. Schradin & SR, hep-ph/0212348 & hep-ph/0411328 )  Extend to heterotic string compactified in 10D compactified on Z 3 xZ 2 orbifold ( T. Kobayashi, SR & R.J. Zhang, hep-ph/0403065 & 0409098 ) TM

7   analysis 11 Parameters : 9 Observables ( included in chi2) :

8 Results 1. Dark Matter & WMAP 2. B s ->     3. Light Higgs mass - m h 4. Upper bound on m A Lower bound on BR(B s ->     ) 5. Direct & Indirect dark matter detection

9 Dark Matter & WMAP Neutralino LSP A : broad resonance, m A arbitrary

10 Results - m 16 & m A fixed Green band consistent with WMAP Light Higgs mass contours

11 Br( B s ->     ) SM : 3 x 10 -9 MSSM : ~  tan  6 /m A 4 DZero bound < 5.0 x 10 -7 (95% CL) CDF prelim. < 2.0 x 10 -7 (95% CL)

12 Results - m 16 & m A fixed Constant B s ->     contours Constant   contours

13 Results - m 16 & m A fixed Constant B s ->     contours

14 Light Higgs mass |A t | increasesm h decreases Carena, Quiros & Wagner ‘95

15 Light Higgs mass Needed to fit data M 1/2 increases -A t increases m h decreases

16 Light Higgs mass contours

17 m A [max] Br[ B s ->      ][min] Fermilab !!

18 m A [max] Br[ B s ->      ][min]

19 Direct Neutralino Detection

20 Br( B s - >     ) x 10 7 < 5 all < 2 bold Next gen. Exp’ts

21 Indirect Neutralino Detection

22 W. deBoer SUSY 05 Within same region of SUSY para. space

23 Conclusions - MSO 10 SM 1. Gauge & Yukawa unification 2. Suppresses flavor & CP viol. & N decay 3. Dark Matter consistent w/WMAP 4. 114 < m h < 121 GeV 5. m A < 1.3 TeV BR(B s ->    ) > 10 -8 6. Direct dark matter detection by next generation exp’ts 7. Indirect detection via gammas ?? TM

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