Presentation is loading. Please wait.

Presentation is loading. Please wait.

MICE Beam-line and Detectors Status Report 16 th October 2009 Chris Booth The University of Sheffield.

Published byMarian Rodgers Modified over 8 years ago

Similar presentations

Presentation on theme: "MICE Beam-line and Detectors Status Report 16 th October 2009 Chris Booth The University of Sheffield."— Presentation transcript:

1 MICE Beam-line and Detectors Status Report 16 th October 2009 Chris Booth The University of Sheffield

2 Outline Overview of MICE beam-line Target –Operation –Stability Beam-line optimisation –Quadrupoles –Decay Solenoid Time of Flight counters – , p and  beams Other detectors –Cherenkov –e/  identifier –Sci Fi trackers 2Chris Booth – 16 th October 2009

3 3

4 Target Target drive installed in August shutdown Timing & depth scans during ISIS start-up to explore edge of beam Operation in ISIS MD (50 Hz/32) and User Run modes Studies of different accelerations (drive voltages) Runs at increasing target depth, producing ISIS beam-loss 0.1, 0.2, 0.3, 0.4, 0.5, 1 and 2 V –(Last year’s maximum for prolonged running was 50 mV) Target stability checked over long runs and between runs 62,250 pulses to date (inspections after 12, 22 & 42 k pulses) Routinely providing particles for beam-line and detector studies 4Chris Booth – 16 th October 2009

5 5 Normal beam loss monitor (BLM) display with MICE target inactive Target is in sector 7 Target operating at 2 V beam- loss Note losses in sectors 7 to 9 (and elsewhere)

6 Chris Booth – 16 th October 20096 “BCD” = Beam Centre Distance Exploring the beam edge Increased depth = increased beam-loss Stable operation 0.2 mm (c.f. strike of 38 mm) > 13 hours

7 Beam-loss variation Beam-loss (in Sector 7) for the 13 hour run at 1V Apparently two distinct peaks (although only fitted a single Gaussian). Double structure due to ISIS beam wandering in cyclic pattern Not due to variation in target depth! Activation Study Survey of target area after long 1V run Slight activation (max. 500 µSieverts/hour) in 1 or 2 spots near target ISIS suggests repeat at 5V beam- loss 7Chris Booth – 16 th October 2009

8 Upstream Beam-line 8 Target ISIS synchrotron Quads Q1 - 3 Dipole D1

9 Chris Booth – 16 th October 2009 Optimisation of Upstream Beam-line Scan of upstream quadrupoles Simulation – triangles Data – circles Behaviour qualitatively as expected; more work needed to understand details 9 Counts in GVA1 Preliminary!

10 Chris Booth – 16 th October 2009 Beam-line and detectors 10

11 Time of Flight Counters TOF0 and TOF1 installed Horizontal and vertical bars – hodoscope as well as timing Have proved invaluable in beam-line commissioning 11Chris Booth – 16 th October 2009

12 333 MeV/c pion beam 12Chris Booth – 16 th October 2009 TOF1 TOF0 Single-channel ToF spectra  p

13 333 MeV/c proton beam 13Chris Booth – 16 th October 2009 TOF0 back front Protons range out  p

14 444 Mev/c pi + to mu + 14Chris Booth – 16 th October 2009 Proton contamination ranges out muons!

15 444 Mev/c pi – to mu – 15Chris Booth – 16 th October 2009 Excess in TOF0 largely eliminated! muons!

16 Preliminary muon rate survey 16Chris Booth – 16 th October 2009 330 MeV/c  – to  – beam Varied target depth to study muon rate as function of beam loss VERY preliminary! Very preliminary!

17 Chris Booth – 16 th October 2009 Decay Solenoid Operation of Decay Solenoid is now routine Provides gain of ~5 in pion flux – much more for muons Without DSWith DS 17

18 Chris Booth – 16 th October 2009 Decay Solenoid Optimisation 330 MeV/c pion beam DS nominal setting 550 A (3.1 T) Vary ± 10%, study profile in TOF0 TOF0 → TOF 1 → 18 Preliminary! Run 1121 DS lower 0.30T  Run 1123 Nominal DS  Run 1125 DS up 0.30T

19 Chris Booth – 16 th October 2009 TOF Calibration Many TOF bars to cross-calibrate Needs lots of data! 19 2008 2009 330 MeV/c (peaks overlap) 2009 300 MeV/c increased statistics e   TOF2 under construction (Milan) to be delivered at end of this year.

20 Cherenkovs Two aerogel Cherenkov counters Installed after Q6 and TOF1 To separate e/  220-350 MeV/c e/  calibration data taken Sample electron data below 20Chris Booth – 16 th October 2009

21 e/  Identifier KL lead/scintillating fibre calorimeter module –Installed on temporary support in September –Calibration in progress Will be followed by Electron Muon Ranger (EMR) –See next slide 21Chris Booth – 16 th October 2009 KL KL behind TOF1

22 Electron-Muon Ranger (EMR) 50 1m 2 planes, 1.7 cm thick. Triangular scintillator bars + wavelength-shifter fibre readout. to be installed July next year. 22Chris Booth – 16 th October 2009

23 Scintillating Fibre Tracker 2 nd tracker completed Feb. Exposed to cosmics Mar- Aug. Performs according to spec. Final calibration in progress Both trackers ready for installation 23Chris Booth – 16 th October 2009

24 Summary A huge amount of effort and progress during September! Target reliably producing beam losses up to 2 V. TOF providing valuable beam diagnostics. Decay solenoid operating without problems. Beam-line optimisations (DS, Qn,...) performed. Proton, pion, muon & electron beams, of various momenta, used for detector calibrations. Data acquisition synchronisation problems fixed, limit on particles/spill raised from 40 to 250. Data in use for off-line calibrations of TOF, Cherenkovs, KL. We look forward to more data in November!! 24Chris Booth – 16 th October 2009

Download ppt "MICE Beam-line and Detectors Status Report 16 th October 2009 Chris Booth The University of Sheffield."

Similar presentations

1 MICE Beamline: Plans for initial commissioning. Kevin Tilley, 16 th November. - 75days until commissioning Target, detectors, particle production Upstream.

1 MICE Beamline: Plans for initial commissioning. Kevin Tilley, 16 th November. - 75days until commissioning Target, detectors, particle production Upstream.
Progress in the construction of the MICE cooling channel and first measurements Adam Dobbs, EPS-HEP, 23 rd July 2011.

Progress in the construction of the MICE cooling channel and first measurements Adam Dobbs, EPS-HEP, 23 rd July 2011.
MICE MICE Target Mechanism Paul Smith University of Sheffield 8 th June 2010 (Based upon talk given by Chris Booth at CM26)

MICE MICE Target Mechanism Paul Smith University of Sheffield 8 th June 2010 (Based upon talk given by Chris Booth at CM26)
January 14, 2004 TJR - - UPDATED 1/25/04 1 MICE Beamline Analysis Using g4beamline Including Jan 25 Updates for Kevin’s JAN04 Beamline Design Tom Roberts.

January 14, 2004 TJR - - UPDATED 1/25/04 1 MICE Beamline Analysis Using g4beamline Including Jan 25 Updates for Kevin’s JAN04 Beamline Design Tom Roberts.
Target Operations A summary of Target Operation to Date Paul Hodgson The University of Sheffield.

Target Operations A summary of Target Operation to Date Paul Hodgson The University of Sheffield.
MTest Facility Low Energy Beam Erik Ramberg AEM 15 October, 2007.

MTest Facility Low Energy Beam Erik Ramberg AEM 15 October, 2007.
MICE TARGET OPERATION C. Booth, P. Hodgson, R. Nicholson, P. J. Smith, Dept. of Physics & Astronomy University of Sheffield, England.

MICE TARGET OPERATION C. Booth, P. Hodgson, R. Nicholson, P. J. Smith, Dept. of Physics & Astronomy University of Sheffield, England.
MICE Beam Loss vs Particle Rate Adam Dobbs, ISIS Meeting, 18 th December 2009.

MICE Beam Loss vs Particle Rate Adam Dobbs, ISIS Meeting, 18 th December 2009.
MICE Beam-line and Detectors Status Report 16 th October 2009 Chris Booth The University of Sheffield.

MICE Beam-line and Detectors Status Report 16 th October 2009 Chris Booth The University of Sheffield.
MICE Particle Rate and ISIS Beam Loss Adam Dobbs, Target – ISIS Meeting, 17 th September 2010.

MICE Particle Rate and ISIS Beam Loss Adam Dobbs, Target – ISIS Meeting, 17 th September 2010.
MICE Target Schedule Chris Booth Sheffield 12 th June 2006.

MICE Target Schedule Chris Booth Sheffield 12 th June 2006.
Linda R. Coney – 24th April 2009 MOM Update Linda R. Coney 21 September, 2009.

Linda R. Coney – 24th April 2009 MOM Update Linda R. Coney 21 September, 2009.
Linda R. Coney – 24th September 2009 MOM Update End of Sept Run Linda R. Coney 05 October, 2009.

Linda R. Coney – 24th September 2009 MOM Update End of Sept Run Linda R. Coney 05 October, 2009.
TJR 10/30/031 MICE Beam rates Tom Roberts Illinois Institute of Technology 10/30/03.

TJR 10/30/031 MICE Beam rates Tom Roberts Illinois Institute of Technology 10/30/03.
Luminosity Monitor Commissioning MICE Collaboration Meeting 26 24 March 2010 Paul Soler, David Forrest Danielle MacLennan.

Luminosity Monitor Commissioning MICE Collaboration Meeting March 2010 Paul Soler, David Forrest Danielle MacLennan.
M.apollonioMICE Funding Agency Committee Meeting - RAL 18/4/2008 1 M. Apollonio – MICE Operations Manager University of Oxford MICE beam line commissioning.

M.apollonioMICE Funding Agency Committee Meeting - RAL 18/4/ M. Apollonio – MICE Operations Manager University of Oxford MICE beam line commissioning.
K.Walaron Fermilab, Batavia, Chicago 12/6/2006 1 Simulation and performance of beamline K.Walaron T.J. Roberts.

K.Walaron Fermilab, Batavia, Chicago 12/6/ Simulation and performance of beamline K.Walaron T.J. Roberts.
MICE: The International Muon Ionization Cooling Experiment Diagnostic Systems Tracker Cherenkov Detector Time of Flight Counters Calorimeter Terry Hart.

MICE: The International Muon Ionization Cooling Experiment Diagnostic Systems Tracker Cherenkov Detector Time of Flight Counters Calorimeter Terry Hart.
Linda R. Coney – 24th April 2009 MOM Update Linda R. Coney 14 September, 2009.

Linda R. Coney – 24th April 2009 MOM Update Linda R. Coney 14 September, 2009.
MOM Report Paul Soler MICE Operations Manager University of Glasgow MICO April 12, 2010.

MOM Report Paul Soler MICE Operations Manager University of Glasgow MICO April 12, 2010.

Similar presentations

Ads by Google