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Physics with Photons and Missing Energy at ATLAS. DOE Site Visit Thursday June 14, 2012. SCIPP Roles Played. Diphoton + MET (flagship photon + MET analysis) Schumm contact person, Nielsen, Litke, DESY, Annecy, La Plata, Liverpool, Penn, Tokyo Tech
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Physics with Photons and Missing Energy at ATLAS DOE Site Visit Thursday June 14, 2012
SCIPP Roles Played • Diphoton + MET (flagship photon + MET analysis) • Schumm contact person, Nielsen, Litke, DESY, Annecy, La Plata, Liverpool, Penn, Tokyo Tech • Damiani June 2012 thesis (defended Tuesday!) • Photon + Bjets + MET • Nielsen contact person, Kuhl, with Wiezmann • Photon + Lepton + MET • Mitrevski contact person (sole analyst!) • Overall Photon(s) + X + MET • Schumm is contact person
Papers Search for Diphoton Events with Large Missing Transverse Momentum in 1 fb-1 of 7 TeV Proton-Proton Collision Data with the ATLAS Detector Phys. Lett. B710 (2012) 519-537 Search for Diphoton Events with Large Missing Transverse Momentum in 36 pb-1 of 7 TeV Proton-Proton Collision Data with the ATLAS Detector Eur. Phys. J. C71 (2011) 1744
ATLAS Recognition • Invited Talks • Mitrevski: Photons+MET, SUSY11, Aug 2011 • Schumm: SUSY @ ATLAS, CIPANP, May 2012 • US Talks • Schumm: SUSY @ ATLAS, SUSY Recast (Davis), April 2011 • Mitrevski: Photons+MET, BNL SUSY Workshop, May 2011
Photon(s) + MET: Motivation • ATLAS searches defined by signature, motivated by one or more BSM physics scenario. • Photon(s) + MET Motivations: • Gauge-Mediated SUSY Breaking (GMSB) • New “hidden” gauge/messenger sector protects flavor symmetry • Photons from gaugino gravitino decay • Universal Extra Dimensions (UED) • Weak gravity excused by leaking into extra dimensions • Gravity-mediated KK photon decay KK + G(KK)
GMSB Phenomonology • LSP light (<< GeV) gravitino • NLSP typically neutralino 01 • Bino-like neutralino natural; decays with ~75% BF to photon-gravitino • 2 photons + MET 01 could also be admixture of Wino, Higgsino Photon + (lepton, bjets) + MET
5 fb-1 Diphoton+MET Strategy • Tighter photon selection suppresses backgrounds • Three analysis regions targeting A: High-mass (strong) production, heavy 01 B: High-mass production, light 01 C: Low-mass (electroweak) production Analysis Cuts Observed Signal Expected Background
5 fb-1 Diphoton+MET Results • Tighter photon selection (no pixel hits for conversions) • Optimized signal regions & highter photon ET thresh • ~100 GeV greater reach simply extrapolating 1 fb-1 result (like x2 stats!)
Full 2011 diphoton + MET result (5 fb-1) in Collaboration-Wide Review for ICHEP and then Phys. Lett. B
+ bjet + MET Motivation and Search • One photon, ET > 125 GeV • MET > 150 GeV • 2 ET > 50 jets, one b-tagged • min > 0.4 • MT(,MET) > 100 GeV • Lepton veto Shih, Ruderman
+ bjet + MET: Prospects First analysis of this channel; also first analysis involving the Higgs in the cascade ! For 01 ~50/50 h/B mix, can approach mg ~ 700 GeV when m > ~200 GeV Target: SUSY2012 Beijing, Aug 13-18
New Analysis II: Photon + Lepton + MET • “Lead” (contact person & sole analyst!) is Jovan Mitrevski • Target EW production, and bino/wino admixture for 01) • Start with l = to avoid jet (QCD) backgrounds • Backgrounds (order of size): W, tt(+), W+jets, Z + (,jets) • Only existing result is CMS, 35 pb-1 EW Production Wino-like NLSP Shih, Ruderman
+ Lepton + MET Prospects Background approach nearing completion Systematics ~ next week Histogram-fit limits ~ 2weeks Hope to make SUSY12 TCR SR QCD XR1 WCR XR2 W
Photon(s) + MET Summary • SCIPP playing leading role in multi-signature arena • Attentive analysis yields very aggressive limits • 2011 (5 fb-1) • Two papers published, one in CWR, two more in analysis stage • 2012 (20 fb-1 @ 8 TeV) • Expect 10-15% improvement from each of 8 TeV, statistics 25% increase in reach, similar to other running periods! • More development (Electroweak grid for diphoton+MET…) • Beyond • 14 TeV will open up a whole new window…
General Gauge Mediation (GGM) • The “minimal” SPS8 model is ad hoc, selected somewhat arbitrarily as a concrete model for which different facilities could be compared • In particular, no reason why EW and colored partner scales need be coupled • Generalize model so that one strong partner, one EW partner are light, all other partner masses are high (~1.5 TeV) Free parameters are gluino, Bino-like 10 masses:
Data-Driven Background Estimate • Two major sources: • MET Distribution from QCD Sources • Loose photon control sample • Z e+e- to model events • MET from EW Sources (Ws, ttbar) • e control sample from data, MC • Scale to contribution with e fake rate from Z ee studies
ISO: New Physics! Signal region Nothing there with 36 pb-1, so we set limits…
Observed, Expected Limits ATLAS has better photon reconstruction than CMS (conversions)
Observed in Signal Region vs. Expected Background
20101 (~1 fb-1) Analysis 2011 30x increase in data sample size 12x improvement in cross-section limit 2010 But: 1/M9 for Mgluino~ 900 GeV!