Radiation induced leakage current in CMS TK slilicon sensors

1. Radiation induced leakage current in CMS TK slilicon sensors Christian Barth, Alexander Kainskiy Many thanks to Gino, Frank, Franz ... 1

2. First indication of Ileak increase du to radiation 2

3. The scope of this presentation • Since we do see an effect, let’s agree on • Which data samples to use: • last datapoint of Ileak from database within 10 minutes after stable beam is declared, having Vmon > (250V ? ) • Deadbanded • option – the same but in cosmic runs • option – make dedicated snapshots, but it seems a bit overkill • Where to take the delivered lumi • I found a table which contains delivered lumi, 1 record per fill, starting from 13/03/2011. Looks like it archives DIP messages coming from ? • Maintained by ? Is it corrected in case of Dip/lumi problems? • Which corrections/compensation/normalization is needed? • Do we need some additional calibration (DCU, etc) ? • What kind of monitoring is needed and how often? 3

4. There is a table CMS_BRM_COND.FILL_SUMMARY Which contains delivered lumi starting from 13/03 4

5. Before looking at histograms… • We have to take into account: • Volume of the supplied silicon, geometry • easier for Barrel, more difficult for the EndCaps • Temperature effects/compensation/normalization • uncooled power groups, detached modules • SS and DS modules • HV1 and HV2 may have different number of connected modules • by design ( f.ex. TIB L3 and L4) • Removed jumpers • Pathologies (leaky modules, “bad” or saturated PSUs) • History of interventions becomes more important! • RELIABLE DCU DATA ARE MANDATORY ! 5

6. Tools • Online (web based) • Tool which allows plot Imon vs time and vs Lumi for single power supplies • Offline • Script which retrieve Imon vs Lumi for substructure (f.ex. TIBminus_1) • Simple root script to Fit and fill the histograms • DCU tools (online and offline)

7. Example of pathologies 7

8. DCU map: Ileak during global run 27/04 Color scale is from 1.3 to 20 (uA?) Looks a bit noisy 

9. DCU map: silicon temperature during global run 27/04 Color scale is from 5 to 40 C Looks much better then Ileak, but still has many otliers

10. DCU map: Ileak difference between 27/04 and 15/03 Color scale is from -1 to 5 C Integrated luminosity is ....pB

11. TIB Layer 1 11

12. TIB Layer 2 12

13. TIB Layer 3 13

14. TIB Layer 4 14

15. TID 15

16. TOB Layer 1 16

17. TOB Layer 2 17

18. TOB Layer 3 18

19. TOB Layer 4 19

20. TEC 20

21. Barrel Pixel Layer 3 21

22. Barrel Pixel Layer 1 (and 2) 22

23. Forward Pixels 23

24. Summary Work ongoing to normalize experimental leakage current increase with the DCU TSIL temperature readouts. (Christian)

25. Conclusions Discussion • We have measurements of IleakvsLumi • Possibility to setup right thresholds for CAEN system • There are simple tools to check and retrieve necessary data: • a good starting point for a more sophisticated analysis • we have to monitor that data are in DB (how?) • Better temperature compensation • Module by module • DCU calibration • Ileak from DCU • Reliability of DCU data • DCU calibration (urgent!) • TEC and TID geometry and HV grouping • Simulations • Who continue/supervise this task?