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AIDA Infrastructure for very forward calorimeters 13/11/2012 In collaboration with: François-Xavier Nuiry Andrea Catinaccio Konrad Elsener 113/11/2012AIDA.

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Presentation on theme: "AIDA Infrastructure for very forward calorimeters 13/11/2012 In collaboration with: François-Xavier Nuiry Andrea Catinaccio Konrad Elsener 113/11/2012AIDA."— Presentation transcript:

1 AIDA Infrastructure for very forward calorimeters 13/11/2012 In collaboration with: François-Xavier Nuiry Andrea Catinaccio Konrad Elsener 113/11/2012AIDA Presentation François-Xavier Nuiry

2 Overview Main requirements Global design Metrology with steel plates – Concept validation Tungsten plates (Plansee) Tungsten plates (MG Sanders) Final assembly: mounting on a marble General status 213/11/2012AIDA Presentation François-Xavier Nuiry

3 Requirements AIDA forward calorimeter Design and manufacturing of a mechanical structure for tungsten plates and silicon sensors. A=3.5mmB=0.32±0.015mmC=2, 1, or 0.5 ±0.05mmD=not really important 60 13/11/2012AIDA Presentation François-Xavier Nuiry3 Other requirements: - Necessity to remove sensors and tungsten in a safe and easy way. -Services have to be held. -W plates are linked to the ground. -An electromagnetic + light shielding has to be provided. -horizontal + vertical position for cosmic muons.

4 Global design Cradle, combs, permaglass frames + W plates, hood, services supports Able to work with 2mm and 1mm gap between tungsten plates 413/11/2012AIDA Presentation François-Xavier Nuiry

5 Metrology with steel plates 13/11/2012AIDA Presentation François-Xavier Nuiry5 2 permaglass + steel plates assemblies are mounted in the cradle. Assemblies are installed in 3 different positions: position 1, 16 and 30. Position 1 Position 16 Position 30 We measure the distance between 2 plates: from the back of plate 1 to the front of plate 2. The reproducibility of the plate positioning in the same slot is also evaluated.

6 Metrology with steel plates 13/11/2012AIDA Presentation François-Xavier Nuiry6 9 points are probed on each plate, with the MMT machine. The distance point-point is measured by the machine. Position 1 Position 16 Position 30

7 Metrology with steel plates - 2mm gap 13/11/2012AIDA Presentation François-Xavier Nuiry7 Positioning reproducibility Position 1 Mid-distance accuracy Max-distance accuracy 2mm gap - distance accuracy

8 Metrology with steel plates - 1mm gap 13/11/2012AIDA Presentation François-Xavier Nuiry8 Positioning reproducibility Position 1 Mid-distance accuracy Max-distance accuracy 1mm gap - distance accuracy

9 Plansee tungsten plates Machined (with some delay…) According to the manufacturer, 4 over 5 are according the technical drawing (roughness issue) 13/11/2012AIDA Presentation François-Xavier Nuiry9

10 Plansee tungsten plates Theoretically 1 plate (5) is exactly according to what we asked Final metrology tests we did in the frame, with permaglas and combs, were good, and have been realised with the two steel plates which have dimensions close to W Plansee plates. We could have locally some inaccuracies. Globally the distance between 2 plates should be within the +/-50 microns. 13/11/2012AIDA Presentation François-Xavier Nuiry10 PLATESASKED Plansee plate 1 Plansee plate 2 Plansee plate 3 Plansee plate 4 Plansee plate 5 Steel plate 1 Steel plate 2 Flatness plan A 10µm90109371314 Position opposite plan 40µm40684856244846

11 Tungsten plates from MG sanders Current plates from MG Sanders are not delivered according to the specifications: 1113/11/2012AIDA Presentation François-Xavier Nuiry

12 Proposal if we keep W plates from MG sanders Proposal:  Metrology has to be realised a new time  Shipment to Britte Mustad compagny Grinding process on both sides It seems to be feasible. BUT keep in mind that we needed 3 steel plates to get 2 rights! So 1 or 2 could be wrong even after this process. estimated price: 5 workdays and ~2500 Euros Consequences:  W plate will have a thickness of about 3.2mm  Gap between 2 W plates will be ether 2.3mm ether 1.3mm (Instead of 2 and 1mm)  Mixing it with future Plansee plates is not feasible, except if you accept having sometimes a gap of 2.3mm, then 2mm, etc. 1213/11/2012AIDA Presentation François-Xavier Nuiry

13 Final assembly: mounting on a marble  3 stainless steel balls and the W plan are parallel and offset.  Araldite 2011 glue is applied in the slit. (parts are protected with teflon tape).  The frame level in controlled during the glue hardening. 1313/11/2012AIDA Presentation François-Xavier Nuiry

14 GroupTasks / PartsManufacturerStatusDelivery Dates Manufacturing Mechanical frame Subcontractor + CERN100% ManufacturedOK Combs Subcontractor BRITTE100% ManufacturedOK Springs CERNAll springs are manufacturedOK Tungsten frame Subcontractor Resarm + CERN 30 are manufacturedOK Silicon sensor frame CERN5 are manufacturedOK Hood and services support CERNEverything is doneOK Assembly & tests Integration tests with dummy SS plates CERNDoneOK W plates delivery Plansee + MG sandersMG sanders: delivered but wrong Plansee: delivered: under metrology Plansee OK for 4 plates Hood assembly CERN Done OK W & Si frames assemblies CERNSi frames assemblies: trivial W + permaglas assemblies: to be done - 13/11/2012AIDA Presentation François-Xavier Nuiry14 Summary

15 Appendix 2: Additional information about the frame Tungsten plate 125*145 C=2 A=3.5 Gap=5.5 C=2mm  We work with an offset of 5.5mm C=1mm  We work with an offset of 4.5mm Tungsten plate 125*145 C=1 A=3.5 Gap=4.5 Distance before next tungsten Distance before next tungsten BEAM 1513/11/2012AIDA Presentation François-Xavier Nuiry

16 C=2mm between each tungsten Tungsten plate 125*145 C=2 A=3.5 Sensor ~10.5  We work with an offset of 5.5mm Gap=5.5 ~2.5 Electronic board Gap=5.5 No sensor In this gap Sensor ~10.5 ~2.5 Electronic board Sensor ~10.5 ~2.5 Electronic board BEAM 16 C=2 13/11/2012AIDA Presentation François-Xavier Nuiry

17 C=1mm between each tungsten Tungsten plate 125*145 C=1 A=3.5 Sensor ~10.5 Gap=4.5  We work with an offset of 4.5mm Gap=4.5 ~2.5 Electronic board Gap=4.5 No sensor In this gap Sensor ~10.5 ~2.5 Electronic board Sensor ~10.5 ~2.5 Electronic board BEAM No sensor In this gap 1713/11/2012AIDA Presentation François-Xavier Nuiry New set of combs!

18 Tungsten plate 125*145 A=3.5 Sensor ~10.5  We work with an offset of 5.5mm Gap=5.5 ~2.5 Electronic board Gap=5.5 Sensor ~10.5 ~2.5 Electronic board Gap=5.5 No sensor In this gap C=2 Electronic board Sensor ~10.5 ~2.5 Electronic board BEAM 18 What we can do with C=2mm: Appendix 2: Additional information about the frame 13/11/2012AIDA Presentation François-Xavier Nuiry

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