The LHC the story so far

1. The LHC the story so far Alan BarrUniversity of Oxford PASCOS, July 2011

2. The Standard Model Fields (Maxwell, Weak, Strong) Fermions (Dirac…) Masses & potentials. (Untested) + other terms?

3. The accelerator… 1232 x 14.3 m dipoles Superconducting Superfluid (1.9K)Liquid Helium Cooled 7 TeV CM energy 14 TeV ~1 GJ Magnetic Energy ~100 MJ Beam Energy 1 MJ melts 1.5 kg Cu

4. 2 x general-purpose experiments energy, momentum, identification controlled environment ~ 109 collision / second ~ decade of operation LHCb ATLAS ALICE CMS

5. ATLAS Segment of 4π detector

6. Local Interest: ATLAS Semiconductor Tracker… Cambridge: Silicon R&D, testing Robotic assembly

7. A year is a long time at the LHC Commissioned bunch trains 50 ns bunch-crossing operation

8. 1 fb-1 target PASCOS 2010  0.0002 fb-1

9. Sure things @ TeV-scale ~ 100 physics publications on collision data from CMS + ATLAS Strong interaction Weak interaction Higgs Sector or other Electroweak SB Flavours 3rdgeneration quarks (t and b) CP violation

10. ATLAS Strong interactions • Self-interacting force carriers • Perturbative regime • Jets of hadrons • Radiation from accelerated colour • Backgrounds to all other searches • Non-perturbative • Quark-gluon plasma • Nucleon structure

11. CMS-QCD-10-011 Agreementover 10 decades NLO Monte Carlo DATAdeconvolved Uncertaintiesin Jet EnergyScale understood

12. ATLAS-CONF-2011-081 Dijets @ muliti-TeV CM Energy = 4 TeV ATLAS

13. Strong interactions – papers Inelastic cross section Jet cross sections Jet shapes Dijet azimuthal decorrelations Dijet resonances Underlying event Charged hadron distributions Bose-Einstein correlations Strong contact interactions Event shapes

14. Weak interactions WW ZZ Masses and couplings well known Self-interactions under study Cross-sections diverge without new physics

15. Electroweak cross sections

16. ATLAS-CONF-2011-060 W + Jets Electroweak + strong radiation Background to many searches Test MC simulations

17. Excludes SM-like Z’ M<1.41 TeV After you understand the Z… ATLAS-CONF-2011-083

18. Higgs sector – the model LHC sensitivity to almost all SM Higgs masses 2011-12 Field couples to mass Scalar potential Vacuum expectation value W, Z masses via Higgs/gauge interactions Fermion masses via Higgs/Yukawa coupling Field excitation = Higgs boson(s)

19. Higgs boson production and decay • Coupling  mass • Production • Gluon fusion • Weak boson fusion • Decay • To heaviest allowed states

20. arXiv:1106.2748 15 June: full ATLAS search Higgs analysis of 2010 data

21. Higgs  WW (search)

22. Higgs search status

23. CMS-PAS-HIG-10-002 Higgs   (search)

24. 3rd Generation: t and b Three generations needed for CP violation Nearly decoupled from first two generations Long lived b-quark hadrons Standard Model: top Higgs coupling ~unity Radiative corrections from top on mH Role in electroweak symmetry breaking?

25. Papers (flavour) arXiv:1106.0902 • Cross sections • and single • mass of top • jets • Upsilon () • J/Psi () • Strange

26. ATLAS-CONF-2011-087

27. More speculative (perhaps?)… Further generations Unification of forces Supersymmetry WIMPs Compositeness / substructure New gauge forces / particles Strong gravity Extra dimensions Something else?

28. Physics Beyond the Standard Model New results with 2011 data

29. Supersymmetry Partner particles Spin differ by ½ Stabilise mH Dark Matter candidates “Missing” momentum Big reach at LHC

30. Supersymmetry searches 25 Feb 2011 ATLAS-CONF-2011-086 arXiv:1106.5048 “Missing” momentum Scalar sum of momentum

31. Interpretation ATLAS-CONF-2011-086 Simplified model Squark, gluino, massless neutralino Exclude mq = mg< 1.02 TeV Degenerate points harder

32. Wider interpretation... ATLAS 0/1 leptonATLAS-CONF-2011-086 H  CMS αT June’11 h Jan’11 Cassel, Ghilencea, Kraml, Lessa, Ross http://arxiv.org/abs/1101.4664 Allanach, Khoo, Lester, Williams http://arxiv.org/abs/1103.0969 Regions with low fine tuning Points sampled from fits to global data Global CMSSM fits Alan Barr, University of Oxford

33. Getting the results? • ATLAS • Public results: link • CMS • Public results: link • Recent conference • Physics at the LHC 2011, ;link • Upcoming new results: • EPS 2011, 21-27 July; link

34. Conclusions • Excellent operation of LHC and detectors • > 1 fb-1 • Remarkable degree of control • New Physics Searches leading the world • Supersymmetry / WIMPs • Resonances • Substructure • … • Sufficient data for Higgs search • Over wide range of SM cross-sections • Full range by end 2012?

35. LHC PHYSICS Extra slides

36. 2011 Plans…

37. Software Operations Hardware Grid Detector & Upgrade Computing

38. http://indico.cern.ch/conferenceDisplay.py?confId=100963

40. Large Hadron Collider 1 MJ melts 1.5 kg Cu

41. W charge asymmetry Vector – Axial couplings (Chiral couplings) Probe proton structure (Parton distributions) Cancellation of systematic uncertainties

43. Pileup • The pileup in 2011 is on average <μ>=6 interactions per crossing • Significantly higher than 2010 • And than originally anticipated in early LHC running • Tails up to 14 interactions per crossing • Due to some bunches with much higher currents • Causes challenge for physics analyses and software • Detailed simulation models both the <μ> and the bunch train structure • Reweighted according to data <μ> distribution • Software performance significantly improved to accommodate Tier0 resources (reco time 11-13s/event) • Physics performance reasonably unaffected • Jet energy scale uncertainty temporarily increased for low pT jets

44. Summary of Electroweak Boson and Top Quark Cross Sections • All measurements agree with SM expectation (so far) • Measuring cross sections of ~10 pb

45. Further search papers • Others • Monojets • e-mu resonances • Dilepton resonances • Leptoquarks • CHAMPS • Dimuons (contact) • W' l  • Z'  ll • Supersymmetry: • Squarksor gluinos • Lepton + jet + invis • Dilepton + invis • Same sign leptons + invis • Z + invis • b-jet(s) + invis • R-hadrons