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Slow particles reconstruction R.Hołyński, A.Olszewski, P. Sawicki, A. Trzupek, B.Wosiek, K.Woźniak Algorithm description Large dE hits Angular cuts on.

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Presentation on theme: "Slow particles reconstruction R.Hołyński, A.Olszewski, P. Sawicki, A. Trzupek, B.Wosiek, K.Woźniak Algorithm description Large dE hits Angular cuts on."— Presentation transcript:

1 Slow particles reconstruction R.Hołyński, A.Olszewski, P. Sawicki, A. Trzupek, B.Wosiek, K.Woźniak Algorithm description Large dE hits Angular cuts on track candidates Negative particles as a “source” of dE/dx calibration Mass parameter contours (PID) Reconstruction of experimental and MC data Slow tracks in PR00 data MC study of reconstructed slow tracks sample Search for  K K MC studies

2 Algorithm description From the data hits with large energy losses in planes A-E are selected: dE i /dx > 0.5 MeV We are looking for particles which range out in plane E min. ion. MC X[cm] A B C D E F p p  50 MeV/c, p K  140 MeV/c, p p  200 MeV/c Z[cm]

3 Algorithm description Hits with large energy deposits are used to form 5-hits tracks candidates (one hit per plane). Track candidates undergo angular cuts: |  i+1 -  i | <  (  i,  i from vertex position) |  i+1 -  i | <  MC:  < [2.1 o, 3.9 o, 2.6 o, 7.5 o ]  < [2.4 o, 4.2 o, 2.7 o, 6.7 o ] AB BC CD DE 99.5% hits

4 Negative particles as a “source” of dE/dx calibration

5 MC: dE/dx E > 7 MeV only for negative stopping particles

6 Reconstruction of negative pions from experimental and MC data (Z vert > -7cm, <15cm) PR00: 58000 events ~41000 CENTRAL events ~17000 MB events PR01: 85000 events ~25000 CENTRAL events ~60000 MB events MC: 101000 events ~51000 CENTRAL events ~50000 MB events PR00 PR01 MC  #  - 73 72 145 MC sample contains 85% of negative pions

7 dE/dx calibration by negative particles

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9

10 Calibration factors for: PR00 PR01 PR00+PR01 Plane A: 1.12 1.14 1.128 Plane B: 1.15 1.13 1.133 Plane C: 1.14 1.14 1.127 (dE/dx) MC = 1.13 (dE/dx) exp

11 Candidate tracks are identified on M p and E loss plane (M p ) i = (dE/dx) i * E i ( 1/  2 ) (  m  2 ) E loss = Σ dE i /nhits, i=A-E PID contours E loss MpMp  p K

12 Reconstruction of experimental and MC data PR00 MC  442 502 K 55 81 p 28 104 ! Number of reconstructed particles depends on the (dE/dx) F veto (=1 MeV)

13 Reconstruction of experimental and MC data

14 Reconstruction of MC data slow pion = pion having hits in A-D or A-E

15 Reconstruction of MC data slow pion = pion having hits in A-D or A-E

16 Reconstruction of MC data slow pion = pion having hits in A-D or A-E

17 Reconstruction of MC data slow pion = pion having hits in A-D or A-E

18 Reconstruction of MC data slow pion = pion having hits in A-D or A-E

19 Reconstruction of MC data

20 Reconstruction MC data

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