Update on Beamtest 06 CU PSF study

1. Update on Beamtest 06 CU PSF study C. Cecchi S. Germani M. Pepe Università di Perugia and INFN Gamma-ray Large Area Space Telescope Beam Test Worksop II May 15-17, 2006

2. 40° 20° 0° Simulated Data BeamtestRelease v1r0801p0 • PS simulation from beamtest06 v4r0 (updated) • 4.5M e- generated with E=2.5 GeV /angle(0°, 20°, 40°) • 4.5M e- generated with E= 1 GeV /angle • 800k e- from SLAC pipeline /angle(0°, 40°) • Analyzed using Gleam v6r12 • hit the towers at • 3 different Beam Angles • (0° and 40° are the • same as Mass Production (SLAC))

3. e_silicon[0] e_silicon[1] e_silicon[2] e_silicon[3] Basic Event Selection • We used the Merit ntuple after adding PS variables • - goodCal = EvtEnergyCorr>20 && EvtEnergyCorr<BeamEnergy • goodNumTracks = TkrNumTracks > 0 • goodTag = e_silicon[i] > 0 i=0, 3

4. Vertex and Track • Good Vertex Merit Variable VtxStatus =  34 : 2 tracks vertex + two tracks share first hit  162 : 34 + DOCA location lies inside track hits else use only BestTrack After cuts we have roughly the same number of events in each of the two categories

5. Energy and Direction • Reconstructed Energy compare EvtEnergyCorr TagEnergy (BeamEnergy – E_rec) • Photon Direction derived using first two tag detectors (Ptag) • PSF defined from angular error: • good Vertex  acos(Ptag·PVtx) • best Track  acos(Ptag·PTkr1)

6. Tagger Silicon Detector

7. Angle Error (Vtx Scaled) 2 GeV (SLAC) 2.5 GeV 1 GeV

8. McEnergy (e- 2.5 GeV) MultiGamma  Any M_gam One Gamma  M_gam==1 McEnergy =ΣMcEγ 0 deg 40 deg The MultiGamma effect is small we can neglect to distinguish between 1 and multigamma events

9. Energy Rec. Comparison 1 Gamma e- 2.5 GeV 0 deg 40 deg Resolution of the tagger worse at low energies wrt EvtEnergy  visible in the scaled PSF

10. Tagger Energy e- 2.5 GeV Tagger Energy = BeamEnergy–E_rec 0 deg 40 deg

11. EvtEnergyCorr 20 deg e- 2.5 GeV 0 deg 40 deg

12. McDirErr – Measured DirErr e- 2.5 GeV Vtx Events

13. Tagger Selection (4Si vs 2Si) e- 2.5 GeV 0 deg Requiring e_silicon>0 (signal) only from the first two Tagger Planes does not affect the PSF !

14. Electron Beam 2.5 GeV Vtx Events Tkr Events

15. SLAC Mass Production vs 2.5 GeV

16. e- 2.5GeV – 2GeV – 1 GeV

17. Evaluating PSF Error • The number of events within 68% is N68 • The error on N68 is ΔN68=sqrt(NTOT×0.68×(1-0.68)) [Binomial] • ΔPSF68 is obtained computing the quantiles corresponding to a number of events equal to N68 ±ΔN68 PSF68 68%

18. PSF Error one beam energy vs all Vtx 0 deg Goal Error Level

19. Conclusions • 1 and 2.5 GeV e- simulated on PG-farm 27M analysed • 2 GeV SLAC production 1.6M (e-) analysed • No difference selecting 1 or M • Tag energy  difference only on scaled PSF at low energies • Simulated and reconstructed energies gives same results on PSF • Selection with only the first two silicon  higher photon energy • Is 800K e-/angle/energy enough to reach 1% error on PSF? No at low energies...... At higher energies may depend on true rejection • Cross check results using only not scaled PSF