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Search For New Physics at the TeVatron. Jean-Fran ç ois Grivaz LAL-Orsay. http://www-cdf.fnal.gov/physics/exotic/exotic.html http://www-d0.fnal.gov/Run2Physics/WWW/results.htm. Chicago . CDF. DØ. Tevatron. p sou rce. Main Injector & Recycler. The Tevatron at Run II.
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Search For New Physics at the TeVatron Jean-François Grivaz LAL-Orsay http://www-cdf.fnal.gov/physics/exotic/exotic.html http://www-d0.fnal.gov/Run2Physics/WWW/results.htm Euro-GDR 25-November-2004
Chicago CDF DØ Tevatron p source Main Injector & Recycler The Tevatron at Run II • New Main Injector • + Recycler • Higher energy • (1.96 TeV vs 1.8 TeV) • => Higher cross sections • (~30% for the top) • Higher antiprotonintensity • 6x6 36x36 bunches • (3.5 s 396 ns) • antiproton “recycler” • => Higher luminosity Euro-GDR 25-November-2004
Luminosity performance In 2004: • Peak luminosity: • 4 - 8 1031 cm-2 s-1 • Weekly delivered: • 8 - 16 pb-1 • Data taking efficiency: • 80 - 90% • Physics quality data: • up to 350 pb-1 • analyzed as of ICHEP04 1032 Euro-GDR 25-November-2004
Searches for New Phenomena Supersymmetry: (m)SUGRA, GMSB Extra Dimensions: large, warped Extended Gauge Theories: Z’ Higgs bosons: SUSY, SM In back-up slides: RPV, leptoquarks, excited leptons, doubly-charged Higgses Not covered : TeV–1 ED, Technicolor, Little Higgs but same signatures as e.g., LED, SM-Higgs, RS-gravitons Real exotics (e.g.monopoles) Euro-GDR 25-November-2004
Supersymmetry Euro-GDR 25-November-2004
(m)SUGRA m0 m1/2 tan() A0 sign() Two main search streams at the Tevatron: • Squarks and gluinos multijets + missing ET • large production cross sections • large experimental backgrounds • Electroweak gauginos with leptonic decays (Trileptons) • low production cross sections • typically low leptonic branching ratios • clean experimental signature Euro-GDR 25-November-2004
Trileptons (I) • Arise from chargino-neutralino • associated production • “Golden” SUSY signature but: • - low cross sections ( BR) • - soft leptons • - taus (at large tan) • Needs large integrated luminosity • Combine various final states (Also decays via W/Z exchange) DØ analysis based on 147 249 pb1 Combines eel, el, l and same sign dimuon final states Addresses “just beyond LEP”mSUGRAwith low mass sleptons Euro-GDR 25-November-2004
Trileptons (II) • Two isolated (rather soft) e or • Require some Missing ET • channel-dependent cuts (e.g. anti Z) • Two same sign muons, or • An isolated third track (no e or ID) • Main backgrounds: WW, WZ, W, a bit of bb • Altogether: 3 events observed vs 2.9 0.8 expected Euro-GDR 25-November-2004
Trileptons (III) Substantial improvement wrt Run I: m() 97 GeV for m(slepton) m() Should soon probe virgin mSUGRA territory Euro-GDR 25-November-2004
Stop and sbottom • CDF has searched for charged massive particles in 53 pb1 • appear as slow moving (TOF) high pT muons • result interpreted for (meta)stable stop • m(stop) 108 GeV (isolated) or 95 GeV (non-isolated) • CDF has searched for sbottoms • in gluino decays (156 pb1) • assumes sb1 much lighter than • all other squarks (large tan) • gluino sb1 b • 4 b-jets + Missing ET • for gluino pairs • the selection requires at least • one b-tag, no isolated lepton • With 2 b-tags: 4 vs 2.6 0.7 expected Euro-GDR 25-November-2004
Generic squarks (I) • Strong production of: • sq-sqbar • sq-sq • sq-gl • gl-gl In 85 pb1, DØ has searched along the “minimum sq-mass line” of mSUGRA: very low m0 (25 GeV), (tan = 3, A0 = 0, 0), scan over m1/2 Mostly sq-sqbar with sq q Acoplanar jets + Missing ET Euro-GDR 25-November-2004
QCD Generic squarks (II) • Main selection cuts: • at least two high pT jets • isolated lepton veto • Missing ET should not be • along or opposite to a jet • Sum of jet pT 275 GeV • Missing ET 175 GeV • Main backgrounds left: • (Z ) + jets • (W ) + jets • QCD negligible 4 events selected vs 2.7 +2.3/1.5 expected Euro-GDR 25-November-2004
Generic squarks (III) Slight improvement over CDF-Run I along that “minimum sq-mass line”: (msq 292 GeV and mgl 333 GeV) How relevant are the Tevatron results on squarks and gluinos ? LEP slepton and chargino limits much tighter constraints on m0 and m1/2 within mSUGRA (or even MSSM with unification) The Tevatron should consider models with smaller M3/M2 ratios: not unnatural in GUTs (e.g. M3/M2 ~ 1 if SUSY breaking by a 75) or in some string inspired models Euro-GDR 25-November-2004
GMSB with NLSP (I) Remember the CDF ee + Missing ET event ?… + gravitino Inclusive search for Missing ET by both CDF / DØ • Photon = electron without track • Photon ET 13 / 20 GeV • Missing ET > 45 / 40 GeV • Mild topological cuts • Main backgrounds: • EM-jets (or real QCD photons) • + fake Missing ET • electron + photon • + real Missing ET • All determined from the data CDF : 0 vs 0.3 0.1 expected DØ : 2 vs 3.7 0.6 expected Euro-GDR 25-November-2004
GMSB with NLSP (II) • Interpretation within mGMSB • with: • N = 1 • Mmessenger = 2, • 0, • tan = 15 (aka “Snowmass slope”) • Signal dominated by • chargino-neutralino production 263 pb-1 World best limit: m 108 GeV (DØ) (Also 93 GeV (CDF)) Euro-GDR 25-November-2004
“Superjets” ? CDF @ Run I observed an excess of W + 2/3 jet events with 1 jet “double-tagged” (Secondary vertex + Soft lepton) 13 vs 4.4 0.6 expected An interpretation in terms of light sbottom + RPV () has been suggested (not by CDF) DØ has searched for such an anomaly in 150 pb-1 of Run II data and did not find any. Let’s wait and see what CDF will find… Euro-GDR 25-November-2004
Bs In SM, tiny BR ~ 3.5 109 (and 25 times smaller for Bd) But in SUSY, a (tan)6 factor could lead to an enhancement by as much as three orders of magnitude Select dimuons originating from displaced vertices, and look inside a mass window: BR limits (95% CL): 5.0 10-7 (DØ 240pb-1) and 7.5 10-7 (CDF 171 pb-1) Close to getting relevant Euro-GDR 25-November-2004
Extra Dimensions Euro-GDR 25-November-2004
Models of Extra Dimensions • Two classes of models considered: • ADD • 2 to 7 large (sub mm) EDs • gravity propagates • freely in the bulk • KK excitations • cannot be resolved • RS • one 5th (infinite) ED • with warped geometry • gravity is localized • on a brane other than the SM • KK excitations • have spacings of order TeV Euro-GDR 25-November-2004
g g g q GKK GKK g q f f V GKK GKK f f V Large Extra Dimensions Two main search streams at the TeVatron: Real graviton emission Apparent energy-momentum non-conservation in 3D-space “Monojets” Direct sensitivity to the fundamental Planck scale MD Virtual graviton exchange Modifies SM cross sections Sensitivity to the theory cutoff MS (MS expected to be MD) Euro-GDR 25-November-2004
Monojets DØ search in 85 pb-1: • Main selection cuts: • one high pT jet ( 150 GeV) • (soft jets from ISR are allowed) • isolated lepton veto • Missing ET away from all jets • Missing ET 150 GeV QCD Main background: (Z ) +jet QCD is negligible 63 events selected 100 +51/-32 expected Large error from Jet Energy Scale (Updated result coming soon) Euro-GDR 25-November-2004
High pT dileptons & diphotons DØ search in 200 pb-1 combines ee and to maximize the sensitivity Fit of Data to SM+QCD+LED(MS) World tightest limits: MS > 1.36 TeV MS >1.43 TeV w/DØ@Run I in the GRW formalism Also 1.1 TeV: from CDF in dielectrons with 200 pb-1 from DØ in dimuons with 250 pb-1 Euro-GDR 25-November-2004
Randall – Sundrum gravitons Here too, most of the sensitivity is in diphotons (BR = 2ee) DØ uses the same ee + data set as for the LED search 300 GeV RS-graviton DØ Run II Preliminary Two model parameters: Mass and coupling (/MPl) For /MPl = 0.1: M 785 GeV Also 690 GeV from CDF in diphotons with 345 pb-1 Euro-GDR 25-November-2004
Z’ Euro-GDR 25-November-2004
DØ Run II Preliminary 600 GeV Z’ Z’ in dielectrons Now select only electron pairs (much reduced QCD background) For an SM-like Z’: M 780 GeV Limits for SM-like Z’ and various E6 models Also M > 750 GeV from CDF (200 pb-1) Euro-GDR 25-November-2004
Z’ in dimuons Dimuons vs. dielectrons: lower background but worse resolution Z’ limits in various E6 models For anSM-like Z’: M 735 GeV Also M 680 GeV from DØ (250 pb–1) Combining ee and : M (SM-like Z’) 815 GeV(CDF) Euro-GDR 25-November-2004
Z’ in CDF in 195 pb-1 4 events (eh,h,hh) vs 2.8 0.5 expected Euro-GDR 25-November-2004
Higgs bosons Euro-GDR 25-November-2004
SUSY-Higgs @ large tan Hbb coupling enhanced DØsearch for 3b jets (130 pb-1) Euro-GDR 25-November-2004
SM Higgs boson searches LEP indirect: MH < 260 GeV LEP direct: MH > 114 GeV Hint at 115 GeV MH < 130 GeV: Hbb gg H bb hopeless (H maybe) H(W l) and H(Z ll/): best processes Hbb OK for SUSY @ large tan Htt maybe MH >150 GeV: H WW* gg H (W l)(W* l): best process Also (H WW*)(W l / Z ll) Euro-GDR 25-November-2004
(147 – 177 pb–1) (200 pb–1) High mass: HWW DØsearch in the ee, e and + Missing ET final states The WW background is reduced using the spin correlations: smaller ll angle in the Higgs signal 2 ee events vs 2.7 0.4 expected 2 e events vs 3.1 0.3 expected 5 events vs 5.3 0.6 expected Euro-GDR 25-November-2004
Low mass: (Wl)(Hbb) CDF search in 162 pb–1: e/ + Missing ET + 2jets ( 1 b-tag) Similar DØ search (174 pb–1 - e only) with 2 b-tags Still a long way to go… Euro-GDR 25-November-2004
Now LHC Are we going there ? Updated signal and background cross sections Full detector simulation + established analysis techniques + “reasonable extrapolations” + Signal shape (vs. mass window) (but no systematics…) If we are lucky: 3s evidence If not…: 95% CL exclusion of the MSSM range Euro-GDR 25-November-2004
Final remarks The Higgs is not the whole story… With a data sample at least 20 to 40 times larger than at Run I, collected at higher energy with improved detectors, there is a lot of beautiful (but difficult) physics to be done: • W and top masses, top properties, single top production • B physics: Bs mixing, rare Bs decays, Bs and Lb lifetimes • Exploration of new territory (SUSY, LED…):we may be lucky… • already well underway • interaction with theorists welcome ! With a steadily improving collider performance there are still a number of years and fb–1 ahead of us for frontier physics at the Tevatron. Euro-GDR 25-November-2004
Back-up Slides Euro-GDR 25-November-2004
The CDF and DØ upgrades • New tracking: silicon and • fibers in 2T magnetic field • Upgraded muon system • New DAQ and new trigger • (commissioning displaced track) • New silicon and drift chamber • Upgraded calorimeter (plug) • and muon system • New DAQ and new trigger, • (displaced track trigger) … and new software (C++, OO) Euro-GDR 25-November-2004
CDF/D0 2 fb-1goal! The Run II Menu With 2 fb-1: • Top mass to 3 GeV • W mass to 30 MeV • Bs mixing to 20 ps-1 • Exclude mH = 115 GeV • And much more… • High pT jets • LED to 2 TeV • SUSY And beyond: Euro-GDR 25-November-2004
RPV with ijkLiLjLk coupling (I) DØ has searched for multilpeton final states arising from SUSY particle pair production with R-parity violating decays of two neutralino LSP’s in the regime where is small enough so that only the LSP has an RPV decay, and large enough for its lifetime to be negligible. The couplings considered were 121 eeee, eee or ee + 122 , e or ee + Three isolated (rather soft) e or Require some Missing ET channel-dependent cuts (e.g. anti Z) Euro-GDR 25-November-2004
RPV with ijkLiLjLk coupling (II) 121: 0 vs 0.5 0.4 expected (238 pb-1) 122: 2 vs 0.6 1.9 expected (163 pb-1) eee/ A search has also been performed for the 133coupling, in the eeX final state, with hadrons + (199 pb-1) Resonant single slepton or sneutrino production via a 211 RPV coupling has also been investigated (154 pb-1) m 200 GeV Euro-GDR 25-November-2004
M 241 GeV Leptoquarks LQ lq (BR = ) or LQ q (BR = 1 – ) Pair produced llqq, lqq or qq final states 2nd generation LQ in qq (CDF – 200 pb-1): 2 muons, 2 jets, Z-veto 2 events vs3.2 1.2 expected Euro-GDR 25-November-2004
1st generation Leptoquarks (I) DØanalysis performed in the eeqq and eqq channels (175 pb-1) 2 electrons, 2 jets and Z-veto 1 electron, missing ET and W-veto ST = ET(e1)+MET+ET(j1)+ET(j2) ST = ET(e1)+ET(e2)+ET(j1)+ET(j2) (Before W-veto) (After all other cuts) 0 events vs0.4 0.1 expected 2 events vs4.7 0.9 expected Euro-GDR 25-November-2004
1st generation Leptoquarks (II) M 238 GeV( = 1) M 213 GeV( = 0.5) (DØ – 175 pb-1) Also CDF with 200 pb-1: M 230 GeV( = 1) M 176 GeV( = 0.5 not combined) Euro-GDR 25-November-2004
Leptoquarks in the qq channel Topology = Acoplanar jets + Missing ET Large backgrounds from QCD multijets and from SM processes (Z jets) Also DØ with 85 pb-1: M 109 GeV 124 events vs 118.5 14.5 expected Euro-GDR 25-November-2004
Excited electrons CDF search in the ee final state (200 pb-1) Z - veto 3 events vs 3.0 0.4 expected (main background = Z) Euro-GDR 25-November-2004
Doubly-charged Higgs Bosons Doubly charged Higgs (from Higgs triplets) are predicted in, e.g., LR-symmetric models CDF has searched for H pair production in 240 pb-1 The signature is a pair of same sign ee, e or 0 ee events vs 1.5 +0.90.6 expected 0 e events vs 0.4 0.2 expected 0 events vs 0.8 +0.50.4 expected Also DØ in (113 pb-1): M(HL) > 118 GeV M(HR) > 98 GeV Euro-GDR 25-November-2004