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SiD Engineering Status Report Kurt Krempetz (Layer 5) (Layer 1) VXD.

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Presentation on theme: "SiD Engineering Status Report Kurt Krempetz (Layer 5) (Layer 1) VXD."— Presentation transcript:

1 SiD Engineering Status Report Kurt Krempetz (Layer 5) (Layer 1) VXD

2 Kurt KrempetzSilicon Detector Workshop-1/29/082 SiD Engineering Group Engineers Physicists –ANL Victor Guarino  Hcal –FNAL Bob Wands  FEA Bill Cooper Joe Howell Kurt Krempetz  Integration Walter Jaskierny  Solenoid Electrical –PSL Farshid Feyzi  Muon Steel –SLAC Jim Krebs  EndDoorsMarty Breidenbach Marco Oriunno  Ecal Tom Markiewicz Wes Craddock  Solenoid –RAL Andy Nichols  TrackingPhil Burrows –LAPP Claude GirardYannis Karyotakis Franck Cadoux Nicolas Geffroy  Hcal

3 Kurt KrempetzSilicon Detector Workshop-1/29/083 Subsystem Liaisons to the Engineering Group Vertex  Bill Cooper Silicon Tracker  Tim Nelson Ecal  Marty Breidenbach Hcal  Andy White Muons  Henry Band Forward  Bill Morse MDI  Tom Markiewicz

4 Kurt KrempetzSilicon Detector Workshop-1/29/084 Recent Work Solenoid Conductor Vertex Detector Mechanics Forward Region Magnetic Field Calculations Hcal Ecal Beam Tube

5 Kurt KrempetzSilicon Detector Workshop-1/29/085 BH Curve Effects on SiD Field Calculations (Bob Wands-Fermilab) Seven BH curves were used: –Three of these curves (KJS, LDJ, and MS10360) are from the Minos steels –One curve (CMS) is from the CMS endwall steel –One curve (CDF1020) is from the CDF solenoid –One curve (Mod-Kilmer) is from early Minos R&D –One curve (MCM) is from the Michigan Cyclotron Magnet steel used in the KTeV dipole

6 Kurt KrempetzSilicon Detector Workshop-1/29/086

7 Kurt KrempetzSilicon Detector Workshop-1/29/087 Axial decentering due to differences in BH between steel flux return components (positive toward endwall) BH of Barrel and One Endwall BH of Other Endwall Axial Decentering (tonnes) CMSEndwall missing14000 CMSKJS-177 CMSMS1036034 CMSLDJ-570 CMSMod_Kilmer415 CMSCDF1020166 CMSMCM315

8 Kurt KrempetzSilicon Detector Workshop-1/29/088

9 Kurt KrempetzSilicon Detector Workshop-1/29/089 Conclusions BH of steel has small effect on axial decentering due to misalignment (~10%) BH differences in endwalls could cause large decentering forces even if no misalignment is present, though calculation here is extremely conservative BH of steel has negligible effect on central field, and field uniformity in tracking volume Largest effect of BH is on fringe fields (~100% between best and worst curves at some locations) Characterization of BH at high fields are important for calculations because steel is heavily saturated

10 Kurt KrempetzSilicon Detector Workshop-1/29/0810 Study of a new Hcal geometry- (Nicolas Geffory-LAPP) …motivation: « cracks » in the calorimeter Classical geometry ( muons are lost, hadrons ? )

11 Kurt KrempetzSilicon Detector Workshop-1/29/0811 Study of a new Hcal geometry… Examples of tilt level as a function of the tangent circle radius Classical geometry R circle = 0 ( R min ) R circle = 150 R circle ≈ 380 (= module’s width / 2) R circle = 500 Specific configuration - 2 nd version -

12 Kurt KrempetzSilicon Detector Workshop-1/29/0812 Proposal of Hcal assembly Each module is thus a stiff structure in which chambers can be inserted Several stringers are welded along the module left-shifted stringer right-shifted stringer

13 Kurt KrempetzSilicon Detector Workshop-1/29/0813 Proposal of Hcal assembly Inter-modules fixation: 2 small plates are screwed on blue and red stringers.

14 Kurt KrempetzSilicon Detector Workshop-1/29/0814 Proposal of Hcal assembly Detail of a detection layer Steel interaction plate A detection layer (“sandwich part”) consists in a chamber rigidified with two thin steel plates. Thin steel plates Chamber Detection layer Protection and stiffness !

15 Kurt KrempetzSilicon Detector Workshop-1/29/0815 Proposal of Hcal assembly The whole system (Hcal & Ecal) slides inside the magnet thanks to rails. Part fixed on the cryogenic structure 3h & 9h fixation

16 Kurt KrempetzSilicon Detector Workshop-1/29/0816 Proposal of Hcal assembly Global view of the structure

17 Kurt KrempetzSilicon Detector Workshop-1/29/0817 Conclusions Physic simulation is necessary to optimize the mechanics  Several designs of Hcal are possible to avoid cracks  Finite Element Analyses will be performed to confirm the feasibility of such designs

18 Kurt KrempetzSilicon Detector Workshop-1/29/0818 Physics requirement Radial envelope: 1265 mm to 1473 mm 12 wedges over 2  20 tungsten layers of 2.5 mm 10 tungsten layers of 5 mm Instrumented gap 1.25 mm. i.e. shortest Moliere radius Z length: 3600 mm Wedge mass 4900 Kg Parameters Si/W ECAL Barrel Marco Oriunno-SLAC

19 Kurt KrempetzSilicon Detector Workshop-1/29/0819 “Through-all-pins” layout “Staggered-short-pins” layout : requires only 2 masks for silicon and 8 masks for the kapton Irregular geometry on one edge Proposal under study

20 Kurt KrempetzSilicon Detector Workshop-1/29/0820

21 Kurt KrempetzSilicon Detector Workshop-1/29/0821 Test Beam components W plates 6 in x 6 in

22 Kurt KrempetzSilicon Detector Workshop-1/29/0822 Beam Tube From LumiCal to LumiCal (Cooper/Krempetz-Fermilab)

23 Kurt KrempetzSilicon Detector Workshop-1/29/0823 Beam Tube External Pressure Calculations Small Cone

24 Kurt KrempetzSilicon Detector Workshop-1/29/0824 Beam Tube External Pressure Calculations

25 Kurt KrempetzSilicon Detector Workshop-1/29/0825 Beam Tube Under its Own Weight Simply Support at Ends

26 Kurt KrempetzSilicon Detector Workshop-1/29/0826 Proposed Global Parameters DetectorRadius (m)Axial (z) (m) MinMaxMinMax Vertex Detector0.010.060.000.18 Central Tracking0.211.250.001.61 Endcap Tracker0.000.490.851.37 Barrel Ecal1.271.410.001.79 Endcap Ecal0.211.271.651.79 Barrel Hcal1.422.370.002.74 Endcap Hcal0.211.411.792.74 Coil2.463.270.002.74 Barrel Iron3.285.920.002.75 Endcap Iron0.215.922.755.39

27 Kurt KrempetzSilicon Detector Workshop-1/29/0827 SiD Engineering Group-Estimated Future Involvement Engineers Physicists –ANL Victor Guarino  Limited –FNAL Bob Wands  Slighty ReducedBill Cooper Joe Howell  Greatly Reduced Kurt Krempetz  Slightly Reduced Walter Jaskierny  Slightly Reduced –PSL Farshid Feyzi  Reduced –SLAC Jim Krebs  Greatly ReducedMarty Breidenbach Marco Oriunno  Remains Same Tom Markiewicz Wes Craddock  Remains Same –RAL Andy Nichols  LimitedPhil Burrows –LAPP Claude GirardYannis Karyotakis Franck Cadoux Nicolas Geffroy  Remains Same

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