Searches Beyond the Standard Model at the LHC. Yuri Gershtein

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Transcription:

Searches Beyond the Standard Model at the LHC Yuri Gershtein

There Must Be New Physics! Explain low mass of Higgs (hierarchy problem) Explain Dark Matter why shouldn t it be produced at colliders? Explain matter-antimatter imbalance in the Universe Explain why Yukawa couplings range more than 11 orders of magnitude from electron neutrino to top quark Would be nice to unify gauge forces (and incorporate gravity at some point ) We also have ideas what this new physics could be - which lead us to believe that there is something new at energies ~ electroweak scale - we just need to look in the right place 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 2

2009-2010 LHC Run Money for the operation through high price electricity period are allocated, the length of the run is ~11 months with minimum sensitivity to delays Energy is 10 TeV, integrated luminosity ~200 pb -1 Dataset with real discovery potential 10 TeV is 5 times Tevatron s energy James Stirling 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 3

200 pb -1 10 TeV Event Counts New Physics Available during the 2009-2010 Run 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 4

5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 5

5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 6

In This Talk You ve heard how great the LHC discovery potential is for many years now and we keep improving our analysis methods. What I ll try to do in this talk is to focus on a few examples of how we think we will be able to prove to ourselves and to the world that we have made a discovery topology driven searches simple and inclusive methods data driven background estimation Supersymmetry counting experiments & shapes of distributions Jets+MET lepton+jets+met Smoking gun unmistakably sharp features (almost self-calibrating ) Z, W black holes Detector Commissioning we now have real data to work with! 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 7

Extra Gauge Bosons 2 electrons p T > 30 GeV η < 2.5 & fiducial cuts isolated electron p T > 50 GeV η < 2.5 isolated MET > 50 GeV leptons p T leptons jets p T + E T > 0.5 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 8

Extra Gauge Bosons Not very significant change in reach in 10 vs 14 GeV optimization of running conditions done by physics reach, not E cm! 5σ discovery reach Z mass (TeV) σ(14 TeV)/ σ(10tev) Tevatron s 95%CL limit 1 2 2 3 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 9

Models with Large Extra Dimensions (i.e. ADD) Black holes could be produced at the LHC if the M planck is O(1-10 TeV) Black Holes They will decay through Hawking s radiation into a large number of objects democratically Identify objects: muons, electrons, photons and jets sum up their p T in addition to cut on sum p T require existence of one lepton above 200 GeV or, alternatively, four objects above 200 GeV 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 10

SUSY @ LHC Since superpartners of quarks and gluinos carry color, they are the most abundantly produced SUSY particles at the LHC small kinematical suppression compared to Tevatron q q q χ q χ q g q χ qq χ g g qq χ qq χ at least two high E T jets at least three high E T jets at least four high E T jets SUSY events at the LHC, even those with leptons are very jetty. Strategy is to have a grid of analyses: 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 11

Jets + Missing Transverse Energy Very high probability of new physics if Dark Matter particles are O(100 GeV) they will be produced by the LHC resulting in missing E T. Since it is hadronic collider association with jets is natural staple Supersymmetry search One of the toughest channels: instrumental background Missing E T is sensitive to all the noise, miscalibration, beam halo and hard to clean up and commission Jets fluctuate and can be catastrophically under-measured in a way that is not reproduced by simulation jet cross-section is humongous even small effects in jet response can look like new physics 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 12

Jets + MET at least 4 jets E T >50 GeV one with E T >100 GeV MET > 100 GeV lepton veto sphericity for three leading jets Δφ(jet,MET)>0.2 ATLAS: CERN-Open-2008-020 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 13

Measuring Jet Response Measure how often jets are mis-measured Gauss + low energy tail measure gaussian component from γ+jet balance measure tail from Mercedes events Take events at low MET and apply the non- Gaussian part of the response to them to predict the high MET tail ATLAS: CERN-Open-2008-020 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 14

Physics Background to Jets+MET Irreducible background is coming from Z+jets, where Z decays into neutrinos high order QCD predictions have large uncertainties Can be inferred by looking at Z+jets l + l - +jets but this results in a large statistical error due to smallness of ee & µµ branchings Another idea: Z is just a heavy photon at high Q 2 the should be little difference between Z+X and γ+x use γ+jets events to predict Z+jets works very well, theoretical uncertainties in the ratio of Z to γ are small Other backgrounds from W and top involve lost leptons and are easily estimated from lepton+jets+met samples 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 15

Jets+MET without MET For 2 jets + MET channel can avoid relying on MET altogether by devising clever topological variables L. Randall, D. Tucker-Smith, PRL 101:221803,2008 α T = E j 2 T M j1, j 2 T j E 2 j1 T / E T 2(1 cosδϕ) CMS PAS SUS-08-00 For perfectly measured QCD di-jets α T =0.5. If one of the jets is undermeasured, α T decreases. 2 jets, E T j1 +E T j2 >500 GeV lepton veto α T >0.55 It is possible to generalize a T variable to multi-jet case work is ongoing 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 16

Lepton+jets Requiring a lepton really helps reducing QCD But a new challenge arises: how to deal with W+jets and top backgrounds theoretical prediction has large uncertainties. After years of running at 2 TeV, Tevatron still has to correct W+jets simulation using Z+jets Note, that for the largest background sources, W+jets and semi-leptonic top, MET always comes from a single neutrino from W decay creating a sharp jacobian peak use it to normalize the background predictions! only guaranteed to work if Variable 1 and 2 are uncorrelated 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 17

Lepton+jets Simulation seems to tell us that MET and M T are not strongly correlated In the absence of signal the method works perfectly The problem is that background samples are contaminated with signal reduced sensitivity 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 18

Start-up and Commissioning It is a large and difficult task to commission detectors like CMS and ATLAS But by the time the beam collisions come we will have operated the detectors for almost two years system stabilities and noise measured trackers partially aligned magnetic fields mapped out with cosmic muons billions of events acquired, reconstructed, distributed, rereconstructed, and compared to detector simulation countless problems solved The start-up is likely to be very different from the Run II Tevatron, where detector and accelerator were brought up ~ simultaneously 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 19

Cosmics Event Example: ATLAS 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 20

Cosmics Event Example: CMS 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 21

Tracker Alignment alignment algorithms work achieved precision is already better then considered MC scenario after 10 pb -1 of data CMS preliminary: TIB alignment RMS=26µm 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 22

CMS ECAL data total stopping power in PbWO4 collision loss bremsstrahlung Measured stopping power (corrected for containment) of muons in ECAL Note the lines are not fits, but absolute predictions ATLAS muons consistency of direction in the azimuthal angle between Muon and Inner Tracker - good agreement with MC 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 23

One Beam CMS ~2x109 protons on collimator ~150 m upstream of CMS ATLAS CMS Energies >100 TeV!! Hundreds of thousands muons/event 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 24

Summary LHC operations with two beams will start this year! Detectors had more then a year to iron out problems may be able to produce physics grade results soon after collisions Methods for early analysis are improving Stay tuned!! 5/4/2009 Yuri Gershtein (Rutgers) APS 2009 April Meeting 25

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