MICE Beamline

1. MICE Beamline m. apollonio MICE CM24 - RAL 1

2. Beamline parallel session: • understand thereadinessof the beamline • state of magnets with emphasis on DK solenoid • state of new target • diffuser • optics • knowledge of the beamline • emittance • rate (Lumi monitors?) • FermiLab monitors (location)? • state of other detectors: TOFs/GVAs? • discussion June 1st 2009 MICE CM24 - RAL 2 2

3. Q1 Q2 Q3 D1 Q4 Q5 Q6 Q7 Q8 Q9 D2 MICE CM24 - RAL 3

4. table to be updated during the session … MagnetReadiness MICE CM24 - RAL 4

5. BeamLines Availability Reference Beam Line – muon (e,P=207 MeV/c) Beamlines for initial/calibration studies: from (a) with local momentum rescaling of the magnets [ with / without solenoid ] (infact we used the one with no DKsol for the aformentioned reasons) electron (@150 MeV/c)  used for TOF calibration pions (@ 300 MeV/c)  1st muons seen protons (@480 MeV/c)  1st estimate of primary intensity NB: need to introduce calib. current/field for DKsol April, 22 2009 UKNF09 - Lancaster MICE CM24 - RAL 5 5

6. Muon BeamLine: G4BL simulation – Q1.DS p + ------------ CALC_EMI ------------- + eNT= 0.196 mm rad sx = 4.77 cm sY = 4.55 cm bT = 38397 mm aT = -7.105 RADIUS = 86.73 mm eNx= 0.2448 mm rad bx = 32146 mm ax= 9.68 ex= 0.074 mm rad eNy= 0.1568 mm rad by = 45755 mm ay= -32.9 ey= 0.047 mm rad P=444.71 MeV/c Z=Q1DS rad rad X’ vs X Y’ vs Y mm mm Y vs X MICE CM24 - RAL 6

7. Muon BeamLine: G4BL simulation – TOF0 X’ vs X Y vs X dP/P<10% |dP/P|>10% Y’ vs Y m + ------------ CALC_EMI ------------- + eTN= 2.91 mm rad sX = 4.51 cm sY = 7.02 cm bT = 2874.8618 mm aT = 0.129 RADIUS = 91.4828342 mm eNx= 3.49 mm rad bx= 1400.4 mm ax= 0.489 eX=1.47 mm rad eNy= 2.43 mm rad by= 4867.7 mm ay= -0.392 eY=1.02 mm rad P=250 MeV/c Z=TOF0 MICE CM24 - RAL 7

8. Muon BeamLine: G4BL simulation – TOF1 m + ------------ CALC_EMI ------------- + eTN= 2.47 (mm rad) sX = 5.9 (cm) sY = 4.37 (cm) bT = 2334 (mm) aT = 0.86 RADIUS = 75.9 (mm) eNx= 2.60 bx= 2872 mm ax= 1.598 eNy= 2.35 by= 1727 mm ay= 0.039 P=223 MeV/c Z=TOF1 MICE CM24 - RAL 8

9. Muon BeamLine: G4BL simulation – Diffuser m + ------------ CALC_EMI ------------- + eN= 3.41 mm rad sX = 4.35 cm sY = 4.88 cm bT = 1250 mm aT = -0.0017 RADIUS = 65.3 mm ex= 3.76 mm rad bx= 1004 mm ax= 0.367 ey= 3.10 mm rad by= 1534 mm ay= -0.450 P=214 MeV/c Z=Diffuser MICE CM24 - RAL 9

10. FermiLab Monitors: confirm locations and readiness? Could be useful to determine beam alignment (together with TOF0/1) June 1st 2009 MICE CM24 - RAL 10 10

11. Optics: are we ready? (shutdown 17 Aug/1 Sept) 2Sept – 25 Oct (see later talk for details) - On Sept 2nd we don’t need a beam matched to … something - We can use optics for e=6 mm rad / P=214 MeV/c [STEPII.1] - Rescale it to other momenta to cover STEPI + STEPII.0 - later (towards end of year) we need a properly matched beam for all the config. of STEPII.1 [trk-solenoid + diffuser]  matrix completion - more work needed to tune DS-BL (Q4-9) to match MICE optics - we may want to test solenoid at B+/-dB to increase m rate 3 6 10 140 200 240 June 1st 2009 MICE CM24 - RAL 11 11

12. 2) beamline quadrupole tuning 1) beamline momentum tuning m Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Dipole1 Dipole2 DK solenoid p fix D2 fix D1 Pp=444 MeV/c Pm=255 MeV/c Pm=214 MeV/c Pm=208 MeV/c MICE CM24 - RAL 12

13. Summary • Assume target is working • Assess magnet readiness • DKsol strongly wanted • 5T to cover up to high Pm(MAX=240 MeV/c) • if NO DKsol  back to situation of ’08 • Optics for STEPI/STEPII.0 should be fine as it is • Ongoing work to complete STEPII.1 matrix • Need to assess detector readiness • assume TOF0,1 + GVAs + FLMons are in place and alive MICE CM24 - RAL 13