1 / 14

CBM beam pipe current status

CBM beam pipe current status. Outline The main idea. “Pipe” = “Window”+”Tube”. Balance between measurable particles (window) and ions (tube) Studied configurations Results for UrQMD central events at 25 AGeV Results for UrQMD central events at 8 AGeV

kirsi
Download Presentation

CBM beam pipe current status

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. CBM beam pipe current status • Outline • The main idea. “Pipe” = “Window”+”Tube”. Balance between measurable particles (window) and ions (tube) • Studied configurations • Results for UrQMD central events at 25 AGeV • Results for UrQMD central events at 8 AGeV • Stereo angle effects on STS performance • Effects of the junction between STS and RICH sections • Conclusions Andrey Chernogorov, Sergey Belogurov, ITEP, Moscow FRRC session. 12 December 2010, Obnisk

  2. Studied configurations Some of “Ideal ” configurations. Effects: cylinder-cone; Be-Al. Al: window – scaling from VELO, cone – “simple” manufacturing. “Realistic” configurations. Effects of bellows, width of “Tube”. 1.6º configuration fits to ladders of S. Igolkin without cutting the central rib. Any configuration has a weld 1x10 mm A.Chernogorov, S.Belogurov, ITEP, Moscow

  3. Range distribution window welding • Results for UrQMD central events at 25 AGeV Figure of merit: integrated range in the pipe: IR=Σli·qi2·ne li – range of a particle inside the pipe qi - its charge ne – relative electron density Total ionization losses and number of d-electrons are roughly proportional to IR Cylinder is optimal with MF, cone – without MF (The same for 8 AGeV). No contradiction with the conclusions of HERAb and LHCb. A.Chernogorov, S.Belogurov, ITEP, Moscow

  4. Results for UrQMD central events at 25 AGeV Clear trends for “ideal” configurations, for “real” ones no big difference! A.Chernogorov, S.Belogurov, ITEP, Moscow

  5. Results for UrQMD central events at 25 AGeV Comparison of Al and Be cones 30%/7% No pipe /c No pipe 30-50% /c A.Chernogorov, S.Belogurov, ITEP, Moscow

  6. Results for UrQMD central events at 25 AGeV Clear trends for “ideal” configurations, for “real” ones more narrow seems slightly better. Vertex resolution much worse than expected from multiple scattering and not indicative. Effects of wrong hits pickup in track-finder Thanks to I. Vassiliev for the basic analysis routine A.Chernogorov, S.Belogurov, ITEP, Moscow

  7. Results for UrQMD central events at 8 AGeV 1 Much softer conditions for tracker at SIS-100! STS layout should not be the same as for SIS-300 A.Chernogorov, S.Belogurov, ITEP, Moscow

  8. Results for UrQMD central events at 8 AGeV STS with given layout works perfectly with any beampipe. As any optimistic conclusion should be double checked. Probably for SIS-100, STS layout may be simplified and made cheaper. However, taking into account realistic STS simulation may change the answer! A.Chernogorov, S.Belogurov, ITEP, Moscow

  9. Results for UrQMD central events at 8 AGeV Only S/B and mass resolution are somewhat sensitive to Al beampipe A.Chernogorov, S.Belogurov, ITEP, Moscow

  10. Stereo angle effects on STS performance Big number of fakes is a big problem for track finding, especially for extending the algorithm to the segments with missed points. We looked at sensors with smaller stereo angles…. SIS-300 A.Chernogorov, S.Belogurov, ITEP, Moscow

  11. Stereo angle effects on STS performance SIS-100 For both SIS 100 and SIS 300, stereo angle of 6 ° is the best for track finding. However improvement is paid by S/B ratio in K/L reconstruction. Momentum resolution becomes worse bellow 6° A.Chernogorov, S.Belogurov, ITEP, Moscow

  12. Flange/window effects on RICH Default cbmroot geometry: 1-st section of pipe with Be window h0.1mm on the end with flange 2.0x2.5cm on the end with a weld 2.5x0.2cm on the end A.Chernogorov, S.Belogurov, ITEP, Moscow

  13. Flange/window effects on RICH The influence of the flange is almost imperceptible. There is a slight decrease of parameters when using Be window, while passing 20 or more ions. In general, when the number of ions no more than 30, the configuration of the window can be used. A.Chernogorov, S.Belogurov, ITEP, Moscow

  14. Conclusions • - Influence of shape and material of the beampipe on the STS performance is studied. Pipe is considered as a composition of “window” and “tube” • - For 25 AGeV central events the effects of beampipe are the most prominent in reconstruction efficiency for secondary tracks, • ghost probability, • CPU time, • reconstruction efficiency for secondary particles, • Signal to Background, • Mass resolution • - For 8 AGeV only S/B and mass resolution are somewhat sensitive to Al beampipe. It should be checked with more realistic STS • In the presence of MF the best “tube” is narrow cylinder (no ions are taken into account) • Both Be and Al options are feasible. Be provides higher buckling SF and thinner window. • Decrease of the stereo angle may help to reduce number of fakes and improve track finding performance, however care should be taken of the S/B ratio in particle reconstruction • - The influence of the flange is almost imperceptible. When the number of ions no more than 30, the configuration of the window can be used. A.Chernogorov, S.Belogurov, ITEP, Moscow

More Related