Secondary beam analysis – PS and SPS

1. Secondary beam analysis – PS and SPS Started May 22, 2012

2. rpc/PS_pion pion_2.f pion_11.kumac or pion_11_1GeV.kumac Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 pions: C1 = C2 = 0 and BC<8 muons: N > 20 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

3. Not enough memory for run 109 Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

4. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

5. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

6. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

7. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

8. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

9. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

10. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

11. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = C2 = 0 and BC<8 and R > 2.0 muons: N > 10 and C1 = C2 = 0 and BC>20 Hits in last 2 layers

12. rpc/PS_pion/PS_summary.kumac No calibration whatsoever Calibration with muon response

13. Fits

14. rpc/PS_pion/PS_summary_alpha.kumac runs calib_1.f Calibration study α=0.4 This is interesting. It appears that a linear calibration does not work as well as a calibration attenuated by a power…

15. Positive beam rpc/PS_pion pion_2.f pion_11_pos.kumac Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = 0 and C2 = 1 and BC<8 and R > 2.0 protons: C1 = 0 and C2 = 0 and BC<8 and R > 2.0 muons: N > 10 and C1 = 0 and C2 = 1 and BC>20and Hits in last 2 layers and r<2.0 Run 660177

16. Run 660178

17. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = 0 and C2 = 1 and BC<8 and R > 2.0 protons: C1 = 0 and C2 = 0 and BC<8 and R > 2.0 muons: N > 10 and C1 = 0 and C2 = 1 and BC>20and Hits in last 2 layers and r<2.0

18. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = 0 and C2 = 1 and BC<8 and R > 2.0 protons: C1 = 0 and C2 = 0 and BC<8 and R > 2.0 muons: N > 10 and C1 = 0 and C2 = 1 and BC>20and Hits in last 2 layers and r<2.0

19. Event selection all: 1 cluster in layer 0 with at most 3 hits electrons: C1 = C2 =1 and BC < 8 pions: C1 = 0 and C2 = 1 and BC<8 and R > 2.0 protons: C1 = 0 and C2 = 0 and BC<8 and R > 2.0 muons: N > 10 and C1 = 0 and C2 = 1 and BC>20and Hits in last 2 layers and r<2.0

22. SPS Run Plan Rates Spills of 9 seconds every 45 seconds -> 720 seconds/hour or 17,280 seconds/day At 50 GeVassume maximum of 100 Hz -> 72,000 events/hour or 1,728,000 events/day At 100 GeV assume maximum of 50 Hz -> 36,000 events/hour or 864,000 events/day Data sets Assume minimum of 500,000 events per energy point Overall plan Start June 4th in evening (days start at 8 am) 4,5,7,8 -> -50 GeV 6 -> Machine development 9,10, 11, 12 -> -180 13,14,15,16,17 -> +180 July 30 - August 6 -> 7 days: muons, (+180 GeV), high energy run (<300 GeV) November 2-9 -> 7 days: muons (+180 GeV), reserve or high energy again

23. -120 GeV running (4.5 days) 50, 40 (e and pions), {30 (e and pions),} 60, 80, 100, 120 -180 GeV running (2 days) 120, 150, 180 -30 GeV running (1 day) {30 (e and pions),} 20 (e and pions), {10 (e and pions)} +180 GeV running (5 days) Muons 60, 70, 80, 90 (with Cerenkov tagging of pions) 120, 150, 180

24. Event selection all: 1 cluster in layer 0 with at most 3 hits pions: C1 = 0 and C2 = 0 and IL>2and and no hits in last 4 layers muons: BC>20 and Hits in last 4 layers and r<3.0 660211 660217

25. Event selection all: 1 cluster in layer 0 with at most 3 hits pions: No hits in last 4 layers muons: BC>20 and hits in last 4 layers and r<3.0 660223 660224

26. Event selection all: 1 cluster in layer 0 with at most 3 hits pions: No hits in last 4 layers muons: BC>20 and hits in last 4 layers and r<3.0 660226 660227

27. Event selection all: 1 cluster in layer 0 with at most 3 hits pions: No hits in last 4 layers muons: BC>20 and hits in last 4 layers and r<3.0 660228 660229

28. June 7, 2012 Study of time difference fort.91 pion_19.kumac • Some hits far off in both • + and – direction • - From now on, only • take -18,-19

29. Event selection all: 1 cluster in layer 0 with at most 3 hits pions: No hits in last 4 layers muons: BC>20 and hits in last 4 layers and r<3.0 660233 660234

31. Event selection all: 1 cluster in layer 0 with at most 3 hits pions: No hits in last 4 layers muons: BC>20 and hits in last 4 layers and r<3.0