An extensive aging study of bakelite RPC

1. An extensive aging study of bakelite RPC Danilo Domenici University of Rome “Tor Vergata” and INFN

2. Outlook • Historical review of detector characteristics and performances • Test setup at Gamma Irradiation Facility (CERN) • Measuring the bakelite resistivity • Effects of aging on resistivity • Flowing of humid gas • Effects of aging on rate capability Pisa Meeting – May 27, 2003 2 Danilo Domenici

3. Some history… • In 1998 RPCs were proposed for LHCb Muon Detector, in the regions with a maximum flux density of 750 Hz/cm2 • In 1999 2 RPCs prototypes were built with identical characteristics: bakelite electrodes with bulk resisistivity ρ ≈ 1010Ωcm 50 x 50 cm2sensitive area • The rate capability of these detector was initially measured to be > 3 kHz/cm2 (NIM A 456 (2000) 95) • In 2001 an extensive test started at GIF to study aging effects on rate capability Pisa Meeting – May 27, 2003 3 Danilo Domenici

4. Test setup • Aging test 2001: one detector (A) in pos 1, very close to the γ source other detector (B) in pos 2, far from the source, as a reference • Rate capability measures: both detectors in pos 3, at ~1.5m from the source, on the X5 μ beam • Aging test 2002-2003: both detectors in pos 2 Source characteristics: 662 KeV  from 740 GBq 137Cs Counting rate: 13 kHz/cm2 at 1 m from the source • The irradiation is measured by the accumulated charge per cm2 (Qint) • We have shown that bakelite resistivity is not affected by pure irradiation up to doses of 20 kGy • Since the rate capability is inversely proportional to ρ, this has been the monitored quantity Pisa Meeting – May 27, 2003 4 Danilo Domenici

5. Measure of resistivity • We have developed a simple method to measure ρ continuously at the GIF • The model is described in G. Carboni et al. NIM A 498 (2003) 135 • It is based on the hypothesis that all the physical properties of an RPC must depend on Vgap = V0 - RI S d • It requires the detector to be exposed to large flux of radiation • R depends exponentially on the temperature • a = 0.12 was measured and found in agreement with other measurements Pisa Meeting – May 27, 2003 5 Danilo Domenici

6. Measure of resistivity Current saturation with flux Current linearity with HV • Prediction of the model: • For fixed V0 the current depends exponentially on the temperature through R Pisa Meeting – May 27, 2003 6 Danilo Domenici

7. Current vs time Current drawn at 10800 V corrected by temperature 7 months of irradiation 0.4 C/cm2 acc. charge (RPC A) • I decrease by a factor 6 • ρ increase by the same factor • In the same period RPC B was used as reference and accumulated only 0,05 C/cm2 Qint=0.4 C/cm2 jan 01 aug 01 Pisa Meeting – May 27, 2003 7 Danilo Domenici

8. ρ vs time 1999-2001 irradiating Remarks: • Large increase for RPC A • Evidence of increase not related to irradiation for both Pisa Meeting – May 27, 2003 8 Danilo Domenici

9. ρ vs time 2002 • Test: both detectors now installed close to the source to measure ρ continuously • Only ~0.05 C/cm2 accumulated charge • Both detectors show a steady increase of ρ with time • Hypothesis: drying up of bakelite Pisa Meeting – May 27, 2003 9 Danilo Domenici

10. ρ vs time in 2003: humid gas no flow humid flow • 1.2% of vapor H2O added to the usual gas mixture • Clear effect of humid gas, but: on RPC B there is a sharp decrease of ρ on RPC A the effect is much reduced • ρ rapidly restores to old values when dry gas flow is restored Pisa Meeting – May 27, 2003 10 Danilo Domenici

11. Effects on rate capability We define a RPC detector “capable” to stand a given rate if: • efficiency > 95% (trigger requirement) • at least 400 V plateau (safety requirement) • HV < 11000 (streamer limitation) The detectors were tested at GIF by means of X5 muon beam Pisa Meeting – May 27, 2003 11 Danilo Domenici

12. RPC A T = 25 °C GIF test August 2001 Resistivity at 20 ºC ρA = 39 x 1010 Ωcm Rate capability at 20ºC ~ 640 Hz/cm2 Pisa Meeting – May 27, 2003 12 Danilo Domenici

13. T = 24.5 °C GIF test July 2002 Resistivity at 20 ºC ρA = 110 x 1010 Ωcm Rate capability at 20ºC ~ 200 Hz/cm2 Pisa Meeting – May 27, 2003 13 Danilo Domenici

14. ρ vs time 1999-2001 • Except for the 1999 data (affected by large uncertainties) is confirmed the 1/ρ dependance of rate capability Pisa Meeting – May 27, 2003 14 Danilo Domenici

15. Conclusions • A method has been developed and applied to measure RPC bakelite resistivity on-line, during chamber operation • Aging effects on bakelite RPCs have been extensively studied for 3 years on two identical detectors with building resistivities around 1010Ωcm • After 2 years operation ρhad already increased to ~100 x 1010Ωcm reaching the value of ~200 x 1010Ωcm at the end of the third year • Although irradiation contributes to the resistivity increase, we believe the effect is mainly related to dry gas flow • Humid gas has been flowed with different response: RPC B shows a sharp decrease of resistivity, whereas in RPC A the effect is very much reduced • Restoring dry gas flow has resulted again in fast resistivity increase • Rate capability dropped from few kHz/cm2 to about 200Hz/cm2 no RPCs in LHCb! • Flow of humid gas doesn’t appear to be a practical method to restore detector performances Pisa Meeting – May 27, 2003 15 Danilo Domenici