1. Large Volume String Compactifications hep-th/0505076, 0509012, 0605141, 0609180, hep-ph/0512081 and to appear F. Quevedo, Cambridge. UKBSM Liverpool 2007 (J. Conlon, K. Suruliz, D. Cremades, S. Abdussalam, B. Allanach, S. Kom, V.Balasubramanian, P. Berglund, …)

2. OUTLINE Moduli Stabilisation and the String Landscape Exponentially Large Volumes SUSY Breaking (LHC Phenomenology) Cosmology (Inflation, CMP,…) Conclusions

3. Moduli Stabilisation and the String Landscape

4. The Problem String/M-Theory unique but has many solutions or vacua. Moduli: String/M-Theory unique but has many solutions or vacua. Moduli: Some solutions resemble the Standard Model and MSSM but moduli unrealistic. Degeneracy : Discrete + Continuous (SUSY). Outstanding Problems: SUSY breaking + Vacuum degeneracy. Dilaton S, Kähler T Complex structure U Wilson lines W, Brane separation Y

5. KKLT Scenario Type IIB String on Calabi-Yau Type IIB String on Calabi-Yau Turn on Fluxes ∫ a F 3 = n a ∫ b H 3 = m b ∫ a F 3 = n a ∫ b H 3 = m b Superpotential W = ∫ G 3 Λ Ω, G 3 = F 3 –iS H 3 Superpotential W = ∫ G 3 Λ Ω, G 3 = F 3 –iS H 3 Scalar Potential: V= e K |D a W| 2 Scalar Potential: V= e K |D a W| 2 Minimum D a W = 0 Fixes U a and S Minimum D a W = 0 Fixes U a and S T moduli unfixed: No-Scale models T moduli unfixed: No-Scale models Size of cycle a = U a GKP

6. To fix Kähler moduli: Non-perturbative D7 effects Fluxes Non-perturbative Volume SUSY AdS minimum (W 0 << 1)

7. Lifting to de Sitter (add anti D3 branes, D-terms, etc.) SUSY breaking term KKLT, BKQ, SS,… V axionvolume

8. The Landscape Huge number of discrete vacua >10 500 Statistics Randall-Sundrum warping from strings! Non SUSY de Sitter Dark energy? AD, DD, GKTT,CQ,BGHLW GKP BP

9. Exponentially Large Volumes

10. At least two Kähler moduli (h 21 >h 11 >1) Perturbative corrections to K Example : Exponentially large ! BBCQ, CQS

11. Non SUSY AdS W 0 ~1-10 String scale: Ms 2 =Mp 2 /V

12. KKLT AdS Non SUSY AdS W 0 ~10 -10 W 0 <10 -11 Both minima merge

13. SUSY Breaking (LHC Signatures)

14. The Standard Model in the CY

15. 4D effective Action Φ moduli, C matter, H Higgs New! Chiral matter in CY Conlon, Cremades, FQ

16. Soft SUSY Breaking Large Volume (SM on D3 brane) Ms~10 13 GeV Gaugino masses ~ 10 2 GeV, scalars m ~ 10 7 GeV Ms=M GUT viable if warping, Ms=Tev `viable’ if SM anti D-brane (but 5 th force and cmp?) CQS, AQS Matter on D3

17. Standard Model on D3 Brane Two General Scenarios Intermediate Scale Split SUSY Stringy mSUGRA SM on D3 brane, Ms=10 12 Gev SM on D3 brane, Ms=10 17 Gev Do not solve hierarchy problem(?)

18. Standard Model on D7 Branes Solve hierarchy problem M string = 10 11 GeV! W 0 ~1 (no fine tuning) Kahler potential for chiral matter computed Conlon, Cremades, FQ

19. Chiral Matter on D7 Branes Soft SUSY Breaking terms Universality!Universality! No extra CP violation!No extra CP violation! M i = m 3/2 / log (Mp/m 3/2 )M i = m 3/2 / log (Mp/m 3/2 ) String scale 10 11 GeVString scale 10 11 GeV Solves hierarchy problem!Solves hierarchy problem! Conlon et al. Simplest case More general case

20. Stringy source of universality (approximate) CP Violation Physical phases vanish ! Also: Anomaly mediation suppressed !

21. From Strings to LHC data Stabilise Moduli SUSY broken with hierarchy “Realistic” Observable sector Soft SUSY Breaking terms@Ms RG-Running of Soft terms to TeV (softsusy) Event Generators (PYTHIA-Herwig) Detector Simulators (PGS, GEANT) Data Analysis (Root) Estimate overall uncertainty

22. Allowed Regions Renormalisation group run

23. Low energy spectrum

24. Some observables

26. Sources of uncertainty Gaugino massesGaugino masses Spectrum Beyond MSSMSpectrum Beyond MSSM

27. Spectrum uncertainty

28. Comparison with MSUGRA

29. Smoking gun? Gaugino masses Scalar masses (focus) Large volume MSUGRA Intermediate vs GUT scale ! GUT scale !

30. Cosmology (Inflation, Cosmological moduli problem, etc.)

31. Inflation Need to compute scalar potential from String theory satisfying slow-roll conditions: Number of e-folds N>60 Density perturbations

32. Inflation and Moduli Stabilisation Brane-antibrane inflation (also DBI) Racetrack inflation First explicit inflation realisations in string theory Fine tuning 1/1000 or large fluxes ?

33. Kähler Moduli Inflation Calabi-Yau: 21 > 11 h 21 >h 11 >2 volume τnτn V Conlon-FQBond-Kofman-Prokushkin Small field inflation No fine-tuning!! 0.960<n<0.967 GUT scale Ms?, Loops?

34. Other Cosmological Implications Cosmological moduli problem Observational implications of light volume modulus? U,S: trapped at their minimum T: except for volume, heavy ad decay fast ! (No CMP nor gravitino overproduction) Volume: (mass MeV) CMP (thermal inflation?). Dark matter? X-rays,Gamma rays, e + -e - (511 KeV?)

35. CONCLUSIONS Exciting times for string phenomenology! Soft terms calculable for first time rich phenomenology Intermediate scale strings: hierarchy, QCD axions, neutrino masses (Conlon, Conlon+Cremades) Concrete models of inflation Model independent light modulus Many open questions (A fully realistic model?) (String Vacuum Project (SVP)?)