Operational prototype work at CERN Status report MM Gen. Meeting, 06/11/2013 J. Wotschack1.

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Presentation transcript:

Operational prototype work at CERN Status report MM Gen. Meeting, 06/11/2013 J. Wotschack1

Evaluation of L3 (2.4 x 1 m 2 )  L3 is the second 2.4 x 1 m 2 prototype that had been built; it differed from L2 by adding three panel interconnections, spaced by 50 cm  L3 suffered (like L2) from gas leaks in the drift panel  Suspect gas leaks through mesh frame screw holes; frames were not glued, screws not sealed (to be avoided in the future)  Gas penetrates into the drift panel  Fixed by sealing the drift panel skins with Araldite glue.  Measurement of mechanical deformations  Effect of gas pressure  Test of panel interconnections MM Gen. Meeting, 06/11/2013 J. Wotschack2 1 m 2.4 m 15 mm 10 mm 5 mm

29/10/20133 Drift panel (without R/O panel)  Mesh tension (≈10 N/cm) produces banana effect  Deformation is ≈1 mm in the centre  Requires W≈ 8/11/8 kg to flatten drift panel (th=15 mm)

Evaluation of L3 (cont’d)  Measurement of mechanical deformations of assembled detector  Observe similar ‘banana’ effect as for drift panel alone  Gas pressure leads to deformation of 500 and 800 µm for 6 mbar overpressure (operating pressure is ≤2 mbar) for drift (15 mm) and r/o panels (10 mm)  Panel interconnects (every ≈50 cm)  Reduces banana effect  Eliminates the gas pressure effect MM Gen. Meeting, 06/11/2013 J. Wotschack4 1 m 2.4 m

29/10/20135 L3 assembled - Drift panel surface Central line Interconnecting screws

29/10/20136 Central line Interconnections L3 assembled – readout panel surface

Conclusions from L3 measurements  Mesh tension creates panel deformation, needs attention  Concept of internal spacers works  Eliminates deformation of panels caused by the gas pressure  Distances between spacers to be optimized  More precise measurements using the laser interferometer will follow shortly  Will try to compensate ‘banana’ effect during the assembly  More results … in the January meeting MM Gen. Meeting, 06/11/2013 J. Wotschack7

The MMSW project  Install a MM detector as similar as possible to the NSW detectors on the present Small Wheel next summer, before ATLAS closes  Detector dimensions: 1.2 x 0.5 m 2 (to fit upper half of large CSC)  Four layers (quadruplet), 2 eta and 2 stereo  Strip pitch mm, 1024 strips/layer  PCB production as close as possible to final production  Panel construction and assembly serve as prototype for Module 0  Readout electronics  ATCA SRS as DAQ system  Front-end boards (SRS compatible) with 8 VMM2 chips/board (back- up: APV25)  Collaborative effort  CERN, Japan, Mainz, Lecce, Napoli, … for detector construction  Bucharest, BNL, Arizona, … for electronics MM Gen. Meeting, 06/11/2013 J. Wotschack8

PCB production  PCB production method as in final production, however, PCBs are smaller in size 1.Etching of readout pattern on PCB (Eltos, Italy); expect boards to arrive next week 2.Production of Kapton foils with resistive strips (Japan); done 3.Glueing of resistive strip foils at CERN 4.Making of pillars at CERN 5.Cutting and drilling at CERN MM Gen. Meeting, 06/11/2013 J. Wotschack9

Panel construction (PH-DT)  Method follows the very successful 50 x 50 cm 2 prototype panel construction (flatness ≤ 20 µm)  Vacuum table & stiffback  Flat surfaces are produced on a marble table  Stiffness is achieved by 60 mm high Al honey-comb core  Vacuum pumping through flat surface  Stiffback of 50 x 50 cm 2 has been produced and tested  Vacuum table follows same principle  Stiffback and vacuum table incorporate positioning pins for PCB alignment MM Gen. Meeting, 06/11/2013 J. Wotschack10

Panel construction tool  Vacuum table + vacuum stiff-back  Positioning pins for PCB alignment incorporated in frames  Flat surfaces produced on marble table; does not require machining of flat surface  Stiffness by thick honeycomb core  Light, but stiff, structure, cheap  Replaces marble MM Gen. Meeting, 06/11/2013 J. Wotschack11 Positioning holes

The 50 x 50 cm 2 prototype MM Gen. Meeting, 06/11/2013 J. Wotschack12 Work by Francisco Perez & Jordan Degrange (PH- DT)

Status of MMSW  Readout PCBs in production, expected to be delivered by mid November  Vacuum table & stiff-back  Parts ordered, construction to start next week  Expected to be completed by 22 November  Panel glueing  Design of mechanical parts and drawings done  Material ordered  Expect glueing to start in last week of November MM Gen. Meeting, 06/11/2013 J. Wotschack13