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Physics cases for tracking

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Presentation on theme: "Physics cases for tracking"— Presentation transcript:

1 Physics cases for tracking
Calculations made by Lisbon and Sevilla. Similations by D. Rodriguez (Huelva)

2 19C at the Low Energy Branch (LEB)
Settings 1: 48Ca energy: 400 MeV/u. Graphite target:  = 3 g/cm2 Degrader 1: Al with  = 20.9 g/cm2. Degrader 2: Al with  = 10.5 g/cm2. Without contaminants. Settings 2: 48Ca energy: 400 MeV/u. Graphite target:  = 3 g/cm2 Degrader 1: Al with  = 20.9 g/cm2. Same yield of 20N and 19C. Calculations courtesy of David Boutin

3 The Low Energy Branch (LEB) 19C estimates
Settings 1

4 Beam parameters and tracking system
<E(11Be)> = 38 MeV/u <E(19C)> = 8.4 MeV/u EFWHM = 3 MeV/u  x (19C)= 344  mm mrad y (19C)= 376  mm mrad  x (11Be)= 344  mm mrad  y (11Be)= 376  mm mrad 30 cm C8H8 (for 11Be) 1 mg/cm2 Diameter: 10 cm Track1 DSSSD (20 m) SeD? 2 m 11Be Track2 DSSSD (20 m) SeD? 19C 208Pb (for 19C) 1 mg/cm2 Diameter: 10 cm

5 Detector setup Detection set-ups: - E1 : DSSSD Si-40m.
E1 E2 E/ E E Detection set-ups: - E1 : DSSSD Si-40m. - E2 : DSSD 200 m. E/ E3 : Single PAD 1.5 mm. E : CsI 6 cm. Pulse shape analysis. Time of flight. 40º 1) d = 17 cm Angular resolution: 2º. Pixel: 3x3 mm2. 30º 18C 19C 160 MeV 10º 2) d = 34.4 cm Angular resolution: 2º Pixel: 6x6 mm2 Beam Target 10Be d 3) d = 68.8 cm. Angular resolution: 2º Pixel: 1.2x1.2 cm2

6 19C Elastic scattering + break-up (no tracking)
20 40 60 80 100 120 140 20 40 60 80 100 120 140 E /MeV 1) E /MeV 2) 19C 19C 18C 18C Etotal /MeV Etotal /MeV E = E1+ E2 Detector resolution 2% (Si) 20 40 60 80 100 120 140 E /MeV 3) 19C 18C 18C Etotal /MeV

7 19C Elastic scattering + break-up (tracking)
20 40 60 80 100 120 140 20 40 60 80 100 120 140 E /MeV 1) 2) 19C 18C 18C 19C t = 1 ns Etotal /MeV Etotal /MeV 20 40 60 80 100 120 140 3) 3) E /MeV 18C 3) 19C High time resolution needed SeD Etotal /MeV

8 11Be Elastic scattering + break-up
20 40 60 80 100 120 140 3) No tracking 10Be E /MeV 10Be 11Be E = E1+ E2 + E3 Detector resolution 2% (Si) Detector resolution 10% (CsI) Etotal /MeV 20 40 60 80 100 120 140 20 40 60 80 100 120 140 E /MeV 3) Tracking 3) Tracking+ pixel t = 60 ps 10Be 11Be Etotal /MeV Etotal /MeV

9 Low energy vs high energy
Beam Energy Velocity Collision time (a=2 fm) Maximum excitation energy Timing resolution (dv/v=1%,L=2m) 5 MeV/u 0.1 c 20 fm/c 10 MeV 0.66 ns 20 MeV/u 0.2 c 10 fm/c 20 MeV 0.33 ns 80 MeV/u 0.4 c 5 fm/c 40 MeV 0.16 ns

10 Tracking requirements for low energy beams (5-20 MeV/u)
Angular resolution: 0.5º-1º Timing: ns

11 Transverse momentum resolution
pT = m v q

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