1. Preliminary Study of CC-Inclusive Events in the P0D using Global Reconstruction Rajarshi Das (w/ Walter Toki) Nu-Mu Prelim. Meeting Dec 2010 CSU

2. Overview Preliminary look at charged current events originating in P0D using Global Reconstruction Distributions shown (MC and Data): –Pseudo-vertex (track start) distributions in P0D –Momentum and Cos θ Similar study with Central ECAL pseudo vertices only Quick look at status of related Global Reconstruction parameters

3. Sample and Selection for CC Study Sample: –Monte Carlo (v7r21) NEUT Kinematics Generator corresponding to 3.3 x 10 20 Protons on Target (POT) –Data (v7r19) for Full P0D study from Run 2010a corresponding to 2.9 x 10 19 Protons on Target (POT) Selection BEAM DIRECTION CUTSREASON Require Track TPC Segment Access to momentum measurement from TPC Reduce high angle tracks that cause reconstruction failures Require Track P0D Segment Negative Charge Muon hypothesis Highest Momentum Track Start in P0D Fiducial Volume Reject sand muons Reject Magnet interactions Track Start in C-ECAL Volume Only Look for variation in distributions from change in target density TPC 1 P0D TPC 3TPC 2

4. X and Y Pseudo-Vertex Distributions As expected MC

5. Muon Vertex Distributions BEAM Good agreement between Data and Monte Carlo in Z position of vertex Buildup of vertices in the downstream end of the P0D Muons originating further upstream more likely to range out (~500 MeV for P0D) BEAM MC Data

6. Data comparison agrees rather well after POT normalization for both Muon Momentum and Cos(θ) Post-selection contamination (Non-CC events) very low! Cos(θ) distribution biased towards forward going tracks due to TPC segment requirement Post-selection muons show deficiency in < 500 MeV region (Muon range out momentum in P0D is ~500 MeV) Complimentary study would use range out to determine momentum of muons stopping in P0D Full P0D: P  and Cos(θ) CC-QE 1 Pi Multi Pi Other (DIS, Eta0, K) Non-CC events CC-QE 1 Pi Multi Pi Other (DIS, Eta0, K) Non-CC events Reconstructed Cos(θ) Data Entries: 396689 MC Entries: 43604 Data Entries: 4259

7. Data and Monte Carlo remain reasonably comparable Momentum distribution cut off below 400 MeV, but range out in ECAL is only 70 MeV!! Possibly failed reconstruction due to short P0D Track Lower bias towards forward going tracks (understandably) C-ECAL Only: P  and Cos θ CC-QE 1 Pi Multi Pi Other (DIS, Eta0, K) Non-CC events Entries: 8381

8. CC-QE 1 Pi Multi Pi Other (DIS, Eta0, K) Non-CC events Full P0D: P  vs. Z Vertex Position Note location of misclassified events. Low energy and smaller lever arms

9. Momentum Checks Sample: Muon Particle Gun –1000 events processed with v7r21 and v8r5p3 –0 to 2 GeV flat Energy distribution –All vertices in P0D Cuts: –Only single Lepton track in Event –Vertex in P0D Fiducial region –Muon Track doesn’t stop in P0D From v7r21 to v8r5p3, we see an improvement in reconstructed momentum, Energy Loss application corrected? Algorithm: Should take TPC measured momentum, project track to P0D vertex, correct for energy loss in P0D, but Global Reconstruction possibly missing P0D tracks v7r21 v8r5p3

10. Success/Failure Rates CategoryV7r21v8r5p3 Total in Selection 484429 Evts. w/ Single Global Muon Track reconstructed 262 (54%)227 (53%) Evts. w/ Single P0D 3D Track Reconstructed 387 (80%)424 (99%) Evts. w/ > 1 Global Track reconstructed 132 (27%)382 (89%) Evts. w/ > 1 Global Muon Track reconstructed 24 (5%)60 (14%) Evts. Where Global picked up a P0D Piece 248 (51%)0 (0%)

11. Conclusion Provided a cross check for P0D-TPC studies preceding this one To first order, reasonable agreement between NEUT MC and Data C-ECAL only momentum distribution not fully understood; Cut off in momentum (400 MeV) doesn’t match energy loss range out value of ECAL (70 MeV) Marked increase in Global Reconstruction failure at: –Matching multiple global tracks to the same muon track (5%  14%) –Picking up the Track piece in P0D (51%  0%) Future Work: –Continue checks on Global Reconstruction –Look at incorporating PID cuts