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Double PArton

Double PArton. Varsha Ramakrishnan Monday, October 21, 2019. SO FAR………………. New Bigger Sample of NO-MPI sample also used in the Plots Shown today

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Double PArton

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  1. Double PArton Varsha Ramakrishnan Monday, October 21, 2019

  2. SO FAR……………… • New Bigger Sample of NO-MPI sample also used in the Plots Shown today • Divide ∆φ(Electron,MET) into two regions [0,2.5] and [2.5,PI] and Look at two ∆Z(Electron,Leading)<0.04cm /∆Z(Electron,Second)<0.04cm/∆Z(Second,Leading)<0.04cm AND ∆Z(Electron,Leading) )>0.04 / ∆Z(Electron,Second)>0.04/∆Z(Second,Leading) <0.04cm • Future(i.e Currently Running on CAF): Look at the Highest Energy Jet that Fails the ET cut DeltaPhi(Electron,MET)>2.5 AND <2.5

  3. Tight/W/MET Cuts W-TRANSVERSE-MASS-[50,70]GeV • Tight electron cuts applied to select the Electron from the Ntuple • Electron-Jet object removed form the Jets in the Ntuple • Jets with L5 JES corrected ET>7 GeV and |ETA| <2 selected • ∆R(Electron,Closest-Jet)>0.92(1.3*radius of cone) • ∆φ(MET,All-Jets)>0.7, ∆φ(Electron,MET)>0.7 • Missing ET corrected for Muons/Jets-Selected • ONLY ONE Tight-Electron,MET>30 GeV,Transverse Mass>50 GeV • ONLY TWO Jets (as selected above) • Above Leading/.Second Jet need to have atleast TWO TRACKS in them

  4. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  5. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  6. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  7. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)<0.04 AND ΔZ(Electron,Second)<0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  8. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)<0.04 AND ΔZ(Electron,Second)<0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  9. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)<0.04 AND ΔZ(Electron,Second)<0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  10. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  11. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  12. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  13. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  14. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  15. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  16. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

  17. W+ONLY-TWO-JETS/ ∆φ(Electron,MET)>2.5/ΔZ(Electron,Leading)>0.04 AND ΔZ(Electron,Second)>0.04 AND ΔZ(Seond,Leading)<0.04 cm DeltaPhi(Electron,MET)>2.5 AND <2.5

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