1 / 15

Long term test of RPCs at Gran Sasso A. Paoloni (LNF)

Long term test of RPCs at Gran Sasso A. Paoloni (LNF). LNF-LNGS-Padova. Experimental setup ( @ Lab6 of LNGS ). Scintillator trigger Trigger area = (210*28) cm² Trigger rate = 15 Hz/m² RPC area = (2.9*1.1) m² (full size) RPC 1,2,3,4 with xy readout by 3 cm pitch strips

moses-carter
Télécharger la présentation

Long term test of RPCs at Gran Sasso A. Paoloni (LNF)

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. Long term test of RPCs at Gran SassoA. Paoloni (LNF) LNF-LNGS-Padova

  2. Experimental setup( @ Lab6 of LNGS ) • Scintillator trigger • Trigger area = (210*28) cm² • Trigger rate = 15 Hz/m² • RPC area = (2.9*1.1) m² (full size) • RPC 1,2,3,4 with xy readout by 3 cm pitch strips • RPC 2,4,5,6 (with grooves) • RPC 1,3 (without grooves)

  3. Long term operation test • RPC 13 old chambers • RPC 46 produced according to the final procedure (improved oil coating) • Bakelite resistivity = 5÷10 * 10¹¹ W*cm • Counting rate at Gran Sasso lab surface ≈ 300 Hz/m² • Counting rate at Gran Sasso hall ≈ 30 Hz/m² • Ageing: 6 months surface test ≈ 10 years Opera (rate ratio=10, 6/12 months with beam on)

  4. Operating voltage • Typical operating conditions: Vapplied=7.4 ÷ 7.8 kV, Gas mixture Ar/TFE/i-But=48/48/4 (5 refills/day), T=20÷27 °C, P≈900 mbar • Different T and P  different chamber behaviour at fixed voltage (charge multiplication in gas depends on V/d, where d is the gas density)   • In our analysis the voltage is rescaled to fixed T0=293 K and P0=1010 mbar according to : V = Vapplied * (T/T0) * (P0/P) • Moreover, operating current and counting rates increase with the temperature (change of bakelite resistivity)

  5. Long term test results (old chambers) Gas failure RPC1 • RPC1 shows an increase of the current from day 110 • RPC2 showed an increase already from day 50, reversible by increasing the gas flow from 5 to 10 refills/day (days 105158) • RPC3 with discharges in HV cabling: now we are not able to read currents, but the chamber is still on • No loss of efficiency is observed ( ≥ 97% ) Gas flow doubled RPC2 HV cabling RPC 3 discharge T0=1 May 2002

  6. Long term test results (RPC1) Rescaled operation voltage

  7. Long term test results (RPC1) High currents and rates are correlated (noise)

  8. Long term test results (RPC2) Rescaled operation voltage

  9. Long term test results (RPC2)

  10. Long term test results (RPC3) Rescaled operation voltage

  11. Long term test results (RPC3)

  12. Long term test results (pre-production) Gas failure RPC 4 Currents seem to be more stable RPC 5 RPC 6 T0=1 August 2002

  13. Long term test results (RPC4) Rescaled operation voltage

  14. Long term test results (RPC4)

  15. Conclusions and outlook • RPCs after equivalent 10 years of Opera show good efficiency (though with an increase of current and noise) • This increase can be cured by increasing the gas flow • Final production procedures seems to improve RPC performances (low currents and noise) • Ageing tests are still going on at Lab6 of LNGS

More Related