1 ILD meeting LAL M. Joré – Integration status Matthieu Joré – 25 th of May ILD integration status and open issues.

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Presentation transcript:

1 ILD meeting LAL M. Joré – Integration status Matthieu Joré – 25 th of May ILD integration status and open issues

2 ILD meeting LAL M. Joré – Integration status Outline Introduction Overview of each sub detector integration : –VTX : FPCCD and CMOS –FTD : 1/2 and 3->7 –SIT –TPC –SET and ETD –Ecal : Scintillator and Silicium –Hcal : Analog and Semi Digital –Forward region : LumiCal, Ecal ring, LHCal Conclusions

3 ILD meeting LAL M. Joré – Integration status Goals for the integration studies For 2012 : –Complete basic mechanical integration of the baseline design accounting for insensitive zones such as the beam holes, support structure, cables, gaps or inner detector material –Develop a realistic simulation model of the baseline design, including the identified faults and limitations Goals for this ILD workshop : –Define a software baseline for mass production Each sub detector must show that they could be integrated in ILD –Estimate as much as possible the insensitive material Especially for the inner region !

4 ILD meeting LAL M. Joré – Integration status ILD overview Return Yoke Coil Forward components (QD0 magnet – FCals) HCal ECal TPC Beam line VTX SIT FTD ETD SET

5 ILD meeting LAL M. Joré – Integration status Inner region - reminder TPC Beam pipe FTDSIT VTX Inner Support Structure (ISS) Fixation of ISS on TPC endplates or inner diameter VTX fixed on beam tube BP supporting method to be studied Cables/services (All?) Bellows (both sides)

6 ILD meeting LAL M. Joré – Integration status FPCCD Vertex Placeholder implemented in the ILD CAD model –Mechanical design extrapolated from SLD Supported by the beam pipe Cables amount and paths have been estimated Cooling is foreseen to be CO2 with small SUS pipes –100W and -30/-40°C From Y. Sugimoto and al.

7 ILD meeting LAL M. Joré – Integration status CMOS Vertex Placeholder implemented in the ILD CAD model –Mechanical design extrapolated from SLD Supported by the beam pipe Cables amount and paths have been estimated –Different from FPCCD technology To be checked if Air cooling could work –20/30W and 10/30°C - vibration From J. Baudot and al.

8 ILD meeting LAL M. Joré – Integration status FTD 1&2 Placeholder implemented –No mechanical design Supported by the Inner Supporting Structure No estimation concerning the cables No information concerning the cooling –Air cooling? Alternative integration inside the VTX cryostat –Might need to share the same Faraday cage FTD1&2 in the ILD CAD model Proposal for new integration

9 ILD meeting LAL M. Joré – Integration status FTD3->7 Mechanical design has been providen Supported by the Inner Supporting Structure Electronics, cables amount and path have been estimated Air cooling to be checked From D. Moya, I. Villa and al.

10 ILD meeting LAL M. Joré – Integration status SIT Placeholder implemented –No mechanical design Supported by the Inner Supporting Structure No estimation concerning the cables No information concerning the cooling –Air cooling? SIT in the ILD CAD model

11 ILD meeting LAL M. Joré – Integration status Inner supporting tube FEA calculations has been performed on the tube Results : –Material used for the composite: MTM45/IM7 –Cylinder eight Layers 1,04 mm thickness with 0º/90º/45º/-45º config. –Rings four Layers 0,52 mm thickness Could be implemented in the simulation model From D. Moya

12 ILD meeting LAL M. Joré – Integration status TPC Placeholder implemented –There is a mechanical design –Not yet implemented in the ILD CAD model Fixation to Coil or Hcal to be designed Cables amount estimated and routed CO2 cooling TPC in the ILD CAD model TPC endplate design From Y. Timmermans and al.

13 ILD meeting LAL M. Joré – Integration status SET and ETD SET –Placeholder exists –No mechanical design neither cables or services estimation ETD : –Placeholder exists –Mechanical design under study –Fixation on Ecal EndCap defined –Cables and services under estimation –Water cooling : could use the Ecal loop From P. Ghislain and al.

14 ILD meeting LAL M. Joré – Integration status Si/W Ecal and Sci/WEcal Both share the same structure Placeholder implemented –Mechanical design performed for both barrel and EndCap –Rail fixation to HCal barrel and EC under design 2 rails for Barrel seem feasible Cables amount and path well defined Leakless cooling system (Pwater<Patm) under study and test From M. Anduze, D. Grondin and al.

15 ILD meeting LAL M. Joré – Integration status Analog HCal Place holder implemented –Mechanical design performed for barrel –Not for the EndCap Barrel slit inside the TPC rail system at 22.5° –Detail design of the rail system to be performed –Impact on the Ecal EndCap to be checked carefully – Not obvious ! –New design of the Ecal leakless system EndCap fixation to the Yoke FSP to be studied Cables amount and path estimated Water cooling AHCal mechanical design – K. Gadow and al.

16 ILD meeting LAL M. Joré – Integration status Semi Digital HCal Place holder implemented –Mechanical design performed for barrel –Ongoing for the EndCap Detail design of the rail system to be performed EndCap fixation to the Yoke FSP to be studied Cables amount and path estimated Might use CO2 cooling SDHCal mechanical design – I.Laktineh and al.

17 ILD meeting LAL M. Joré – Integration status Forward Region Big integration effort was done in the past years LHCal and Ecal ring : no real mechanical design LumiCal : –New model to be implemented –Cables under estimation –Water cooling –Laser alignement system to be integrated From W. Wierba and al.

18 ILD meeting LAL M. Joré – Integration status Conclusions Important effort have been done recently : –On both Hcals proposal that are now integrated in the ILD CAD model Effort needs to continue on the EndCap design –On inner region especially the Vertex and the FTD3->7 Some informations could be implemented into the simulation model We have now a better understanding of the integration of ILD But still a long way toward the DBD : –Hcal rails system design –Hcal endcap fixation to the Yoke –TPC fixation –Inner Supporting Tube design –SIT and FTD1&2 integration : How could we proceed ? –…

19 ILD meeting LAL M. Joré – Integration status Outlook We mainly focused on the mechanical and cabling aspects of the integration But it’s now time to start thinking about the other issues : –Cooling We need to put all the needs together and find how we can integrate them properly Some cooling systems could be shared by different subdetectors –Alignment needs and strategies Toward a global position monitoring system ? (eg. QD0, LumiCal, Inner detectors, etc…) –Maintenance that is needed by each sub detector Could have an impact on the opening of the detector

20 ILD meeting LAL M. Joré – Integration status Backup slides

21 ILD meeting LAL M. Joré – Integration status Cables paths

22 ILD meeting LAL M. Joré – Integration status ILD dimensions

23 ILD meeting LAL M. Joré – Integration status ECAL – 2 vs 3 rails gg 3 rails design 2 rails design g ECAL-8-2 ECAL-8-3 Fixing line (3 rails) Fixing line (2 rails) e max = 0.07 mm e max = 0.17 mm

24 ILD meeting LAL M. Joré – Integration status AHCal barrel deformation

25 ILD meeting LAL M. Joré – Integration status WHCal study

26 ILD meeting LAL M. Joré – Integration status WHCal study

27 ILD meeting LAL M. Joré – Integration status WHCal choice at 3/9 O’clock