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SUSY searches using Vector Boson Fusion processes in the LHC

SUSY searches using Vector Boson Fusion processes in the LHC. Andrés Leonardo Cabrera Mora Andrés Flórez , Bernardo Gómez. Departamento de Física Bogotá , Colombia. activities at CERN for RPC Group from CMS Experiment. Skew and Delay Test for the RPC Signal Cables.

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SUSY searches using Vector Boson Fusion processes in the LHC

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  1. SUSY searchesusing Vector BosonFusionprocesses in the LHC Andrés Leonardo Cabrera Mora Andrés Flórez , Bernardo Gómez Departamento de Física Bogotá, Colombia

  2. activities at CERN for RPC Group from CMS Experiment

  3. Skew and Delay Test for the RPC Signal Cables Cables tested: 864 Example of the test

  4. Test of HV Adaptorsfor RPC Jupiterconnector Tripolarconnector V0 = 15 KV I0 = 3μA Trip Time = 3 sec 0< I < 0.2 μA

  5. Test of HV Cables HV Cable Adaptor Long Test (48 hours) Fast Test (30 min) V0 = 12 KV I0 = 3μA Trip Time = 3 sec 0< I < 0.3 μA V0 = 15 KV I0 = 3μA Trip Time = 3 sec 0< I < 0.2 μA

  6. Reshuffling code for the RPC HV System Distributors (Back) • Task • Reshuffle endcap HV cables (RE1, RE2, RE3) to group chambers with close working points. • Goal • Bring actual working point for every chamber close to ideal WP to increase overall chamber efficiency. Distributors (Front)

  7. Installation of RPC Signal Cable for RE+4. • Participation in theinstallation of thesignal cables forthe RE+4 • In the rack side • In thechamberside

  8. Gasleaksearch for the RPC Gas Pipes • Search of gas leaks in the RPC gas pipes • LeakMeasurementusing: • Ar gas withPico data logger • LeakBox • N2H2gas • HydrogenLeak Detector (H2000+) Someresults: W-1 260 L/h -> 160 L/h

  9. Analysiswork

  10. Search of DarkMatter at the LHC in VBF processesusing SUSY models. Forward tagging jets m MET + jj + muons f m h

  11. VFB Jets VBF related distributions for V + jets and VBF production of a charginopair. As expected, the jets in V + jets events are mostly central and have small dijet invariant masses.

  12. VFB Jets VBF related distributions for V + jets and VBF production of a charginopair. The outgoing partons in VBF processes must carry relatively large pT

  13. MissingTransverseEnergy

  14. Strategy • Presence of two energetic jets in the forward direction in opposite hemispheres, and with large dijetinvariant mass. • RelativelyhighMissing ET requirement is imposed due to the presence of the LSP • Twomuons in the final state are expectedforthischannel • VBF SUSY productioncross-sections are relatively small

  15. Workalready done • Gitaccount • AndresFlorez tutorial of thecode • sourcesetupCode_5_3_11_patch6.sh • Gridcertificate • Come back to CERN bytheend of January

  16. Conclusions • Ready to work¡¡¡

  17. Backupslides

  18. Figure 1: Diagrams of chargino-neutralino and chargino-chargino pair production through vector boson fusion followed by their decays to leptons and a LSP.

  19. Results 2012

  20. Lo que conocemos • Toda la materia que conocemos compone el 4% de la materia total del universo (protones, neutrones, electrones, etc) • ¿Dónde esta el resto? • 74 % DarkEnergy • 22 % Materia Oscura

  21. WHAT’S OUT THERE? • Astronomy tells us: • The matter we know (i.e. protons, neutrons and electrons) accounts for just 5% of the universe • The rest is dark matter • And dark energy SLAC/Nicole Rager

  22. Supersimetría? Composición de la materia Modelo Estándar Bosones Fermiones Fermion Quarks Leptones Supercompañero Boson Supercompañero Masas Grandes

  23. Supersimetría? Composición de la materia Modelo Estándar Bosones Fermiones Fermion Quarks Leptones Supercompañero Boson Supercompañero Masas Grandes

  24. Paridad R • La partícula supersimétrica mas liviana (LSP) es estable • El decaimiento de productos de spartículas debe contener un número impar de LSPs. • Las supercompañeras de las partículas del SM deben ser producidas en pares.

  25. Objetivo • Buscar Materia Oscura en el LHC asociada a procesos VFB utilizando modelos Supersimétricos.

  26. Parámetro η : La seudorapidez

  27. Results 2012 Di-photon (γγ ) invariant mass distribution for the CMS data of 2011 and 2012 (black points with error bars). The data are weighted by the signal to background ratio for each sub-category of events. The solid red line shows the fit result for signal plus background; the dashed red line shows only the background.

  28. supersymmetry? Mattercomposition Standard Model Bosons Fermions Quarks Lepton

  29. supersymmetry? Mattercomposition Standard Model Bosons Fermions S-Fermion Quarks Lepton S-Boson

  30. WHAT’S OUT THERE? The matter we know (i.e. protons, neutrons and electrons) accounts for just 4% of the universe The rest is: 74 % DarkEnergy 22 % Materia Oscura

  31. supersymmetry? Supersimetría • Theoreticalproblems of theSM • CandidatetoDarkMatter (LSP)

  32. supersymmetry? Mattercomposition Standard Model Bosons Fermions S-Fermion Quarks Lepton S-Boson Big Mass

  33. R - Parity • Thelightestsusyparticle (LSP) isstablebyconservation of R parity. • Decays productsof s-particles should contain an odd number of LSPs. • The superpartners of the SM are produced in pairs.

  34. ClassicSetting (ModelDependent) ExclusionLimitsforsquarks and gluinos. 1.5 TeV 95%

  35. Workalready done • Gitaccount • AndresFlorez tutorial of thecode • sourcesetupCode_5_3_11_patch6.sh • Gridcertificate • Crab?? • Run thecode??

  36. PhysicsObjectReconstruction: Electrons

  37. Muon Reconstruction and Identification

  38. MissingTransverseEnergy

  39. η: Pseudorapidity

  40. Software Requirements MC Generator: POWHEG, MADGRAPH, TAUOLA, Pythia,etc. Analysis software: CMSSW, Root, etc. ObjectReconstruction: Criteria selection defined by CMS

  41. PhysicsObjectReconstruction: Jets anti-kT clustering algorithm with a reconstruction cone of R = 0.5 is used

  42. PreviousResults • Number of observed events in data and estimated background rates in the search region. The numbers are for L = 10.9 fb-1

  43. Conclusions • The observed number of events in the signal regions shown do not reveal any evidence for VBF SUSY production. • Theresultsarepresented in the context of the R-parity conserving Minimal Supersymmetric Standard Model and considering cases such as VBF electroweak production of charginos and neutralinos. • VBF offers a powerful way to “directly” probe EWK SUSY at the LHC. • Direct window to determination the composition of the LSP.

  44. MainPurpose • Search of DarkMatter at the LHC in VBF processesusing SUSY models.

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