1 / 16

T0 – TDR

T0 – TDR. 22 nd LHCC meeting; Open Session CERN, September 29, 2004 W.H.Trzaska (for T0 collaboration). Results and conclusions from the June 2004 comprehensive test run Milestones Cost estimate. Experimental set-up. PMTs. 25 m of cable. Main electronics. 6 m of cable.

damon
Download Presentation

T0 – TDR

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. T0 – TDR 22nd LHCC meeting; Open Session CERN, September 29, 2004 W.H.Trzaska (for T0 collaboration) Results and conclusions from the June 2004 comprehensive test run Milestones Cost estimate CERN September 29, 2004

  2. Experimental set-up PMTs 25 m of cable Main electronics 6 m of cable  TRD Shoebox CERN September 29, 2004

  3. Typical TOF spectrum obtained with a pair of identical detectors FWHM = 94 ps CERN September 29, 2004

  4. Measured time resolution * With shoebox (worsens resolution by   20 ps) CERN September 29, 2004

  5. Amplitudes • For easier comparison the areas under the peaks were normalized to 10000 • The amplitudes were taken with the same PMT and at the same HV, just the radiators were changed CERN September 29, 2004

  6. Efficiency as function of threshold • At very low threshold values registration efficiency for particles entering perpendicular to the front surface of the radiator is simply proportional to the area of that surface: 100,75, 44% • If the threshold value has to be raised (noise from other detectors, deterioration of detectors or electronics, etc.) the 20 mm radiator may turn out to be the best choice due to its excellent response function CERN September 29, 2004

  7. T0 Efficiency in p – p collisions CERN September 29, 2004

  8. Backsplash spectrum (20 mm quartz) • The efficiency for backward particles is the same as for forward particles but they can be efficiently separated by adjusting the threshold value CERN September 29, 2004

  9. backsplash Backsplash in 200 PYTHIA events T0-A T0-C Alla Maevskaia, INR RAS,Moscow FWD meeting 21.09.2004 Calculations by Alla Maevskaia

  10. Conclusions I (physics) • For all reasons except the efficiency in p-p collisions the 20 mm radiator is by far the best choice. • excellent pulse shape • 1/4 MIP resolution! • The efficiency can be restored, for instance, by increasing the number of detectors in T0-A (next T0 upgrade) • Decision expected on Nov 2004 TB CERN September 29, 2004

  11. Conclusion II (electronics) • We have prototype of the shoebox and of all key electronics (Vertex, MPD, MT, VDU, QTC) • shoebox should work for V0 as well • work on DCS in progress • readout test (full chain) in 2005 • Better pulse shape (20 mm radiator) reduces the dynamic range • use of off-the-shelf CFDs becomes possible • high threshold setting possible • stable performance CERN September 29, 2004

  12. T0 mechanics milestones • No concern: • T0-C prototype ready • Integration completed • Waiting for freezing of RB24 parameters to complete the design and order the production • Production cycle 3-6 months • Should be completed in 2005 CERN September 29, 2004

  13. T0 electronics milestones Main electronics Shoebox • No major concern: • Prototypes of all dedicated T0 electronics build and tested • Excellent test results • Close collaboration with V0: • PMT, front-end (next meeting 10/04) • trigger-specific electronics (11/04) • HV, LV, DCS? • T0 will use TOF readout(slightly modified) CERN September 29, 2004

  14. Some solid dates for T0 • Nov 2004: Freezing radiator size • Dec 2004: Electronics Design Review (joint with V0) • Feb 2005: Detector module frozen; mechanics PRR • Sep 2005: Full chain readout test • Dec 2005: T0 Mechanics ready • Feb 2006: Electronics PRR • Jun 2006: T0-C ready for installation in ALICE; installation of electronics at CERN; tests of the installed T0-C • Dec 2006: T0-A ready for installation in ALICE; tests of the installed T0-A CERN September 29, 2004

  15. T0 cost estimate: 318 kCHF CERN September 29, 2004

  16. Referee question: delay vs. HV 1.5 ps / V CERN September 29, 2004

More Related