Technical Design for the Mu3e Detector

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Presentation transcript:

Technical Design for the Mu3e Detector Dirk Wiedner on behalf of Mu3e February 2017 Dirk Wiedner PSI 2/17 06.02.2017

Phase I TDR Documentation of Mu3e goals Experimental concept Detector design …including services Reconstruction, event selection … Sensitivity study Dirk Wiedner PSI 2/17 06.02.2017

Phased Experiment Target double hollow cone Silicon pixel tracker Phase I Target double hollow cone Silicon pixel tracker Scintillating Fiber detector Tile detector Muon beam O(108/s) Helium atmosphere 1 T B-field Dirk Wiedner PSI 2/17 06.02.2017

Experimental challenges Subsystem Challenges Muon beam 5 x 107/s Helium cooling 1 T B-field Silicon pixel tracker Scintillating Fiber detector Tile detector Limits physics reach 5kW He-cooling (Pixel) Superconducting Magnet Depends on success of large MuPix sensor Extremely tight space, choice of fibre overdue MuTRiG ASIC time critical development, tight space to be shared with services Dirk Wiedner PSI 2/17 06.02.2017

Pixel Tracker Accomplished: Technology for ultra-thin pixel detector identified: HV-CMOS Successful feasibility studies for: Module mechanics He-cooling with low vibration Ultrathin Flexible circuit boards HV-CMOS small prototypes Readout board prototype To be done: Full sized HV-CMOS chip -critical 1st operational detector module -critical Qualification of optimized module design Production yield - critical Pixel Tracker Rendering of CAD study Re-optimized outer modules See talk: Pixel Detector Frank Meier Aeschbacher Dirk Wiedner PSI 2/17 06.02.2017

Fibre Detector Accomplished: Characterization of fibres Proof of concept including Simulation of fibre response Identification of working point Photon yield - critical To be done: Choice of fibre type 1st operational detector module Ultra compact front end electronics – critical Integrate new MuTRiG TDC chip Fibre Detector Rendering of CAD study See talk: Timing Detectors Simon Corrodi Dirk Wiedner PSI 2/17 06.02.2017

Tile Detector Accomplished: Characterization of submodule Proof of concept including Production of similar system To be done: 1st operational detector module Development of TDC ASIC MuTRiG See talk: Timing Detectors Simon Corrodi MuTRiG chip Submodule (2x16 Ch.) Dirk Wiedner PSI 2/17 06.02.2017

Mechanical Integration Accomplished: CAD of most components Mechanical prototypes To be done: Integration of electronics and services –critical Re-distribution of space Avoid double usage Remark: Space inside detector extremely limited Extreme power and cooling requirements (pixel detector) Detailed CAD of phase I detector Dirk Wiedner PSI 2/17 06.02.2017

Cooling 5 + 5KW heat dissipation He cooling in active area Water cooling for electronics Inside detector only few “classical pipes” He distribution integrated in mechanical structures of pixel detector Water distribution Integrated in beam pipe … and tile modules Detailed CAD of phase I detector Dirk Wiedner PSI 2/17 06.02.2017

Cooling pipes 5 + 5KW heat dissipation He cooling in active area Outer Pixel layers 5 + 5KW heat dissipation He cooling in active area Water cooling for electronics Inside detector only few “classical pipes” He distribution integrated in mechanical structures of pixel detector Water distribution Integrated in beam pipe … and tile modules Fibre Detector Inner Pixel Layers Detailed CAD of phase I detector Dirk Wiedner PSI 2/17 06.02.2017

Cooling pipes 5 +5 KW heat dissipation Water cooling for electronics Water distribution Integrated in beam pipe … and tile modules Outer Pixel layers Tile detector Beam pipe Detailed CAD of phase I detector Dirk Wiedner PSI 2/17 06.02.2017

Cabling Inside detector almost no space Electrical signals over: HDIs (high density interconnects) Flex-prints PCBs Optical data cables to the outside 5kW at 1.5 to 1.8V means 3kA Difficult power distribution Detailed CAD of phase I detector Dirk Wiedner PSI 2/17 06.02.2017

Readout system Pixel detector Timing detectors Common read-out system HV-MAPS (MuPix) Sensor and read-out chip in one Deliver zero-suppressed serialized data Timing detectors SiPMs plus MuTRiG TDC Common read-out system Pixel Sensor Fiber Tile Pixel Sensor Fiber Tile Pixel Sensor Fiber Tile Pixel MuPix Fiber MuTRiG Tile MuTRiG FE-PCB FE-PCB FE-PCB Readout board Readout board Readout board PCs Dirk Wiedner PSI 2/17 06.02.2017

Common read-out PCB Front-end PCB Prototype functional Common for pixel, fibre and tile detector Data acquisition Clock distribution Slow control distribution Prototype functional Improved version for Q3/2017 Next: Vertical slice test: All electronics from (pixel) module to PC Dirk Wiedner PSI 2/17 06.02.2017

Mechanical infrastructure CAD of: Cage Rails Cart CAD of magnet and rail system Dirk Wiedner PSI 2/17 06.02.2017

Cage and rails in Magnet Full-size mockup Magnet Rail system Cage Cart Mockup of magnet and rail system Dirk Wiedner PSI 2/17 06.02.2017

Area planning Good progress in terms of CAD, civil engineering for: Platforms Access ways Counting containers Power Cooling Remark: Space in area extremely limited Dirk Wiedner PSI 2/17 06.02.2017

Area planning Good progress in terms of CAD, civil engineering for: Platforms Access ways Counting containers Power Cooling Remark: Space in area extremely limited Photo of the experimental area in 2014 Dirk Wiedner PSI 2/17 06.02.2017

Summary TDR Detectors Mechanical integration Advanced R&D / proof of concept Detailed CAD models Full size MuPix (critical) and MuTRiG ASICS under development Mechanical integration Extremely little space in detector Extreme power requirements Advanced area preparation Dirk Wiedner PSI 2/17 06.02.2017

Outlook Detectors MuPix and MuTRiG Schedule critical for: Functional module prototypes under design Extreme space requirements MuPix and MuTRiG Full size prototypes on the way Essential for detector prototypes Schedule critical for: Full size MuPix development Module prototyping Avoid “waiting” Dirk Wiedner PSI 2/17 06.02.2017

Backup Slides Dirk Wiedner PSI 2/17 06.02.2017

Mu3e Solenoid DFG has granted Mu3e Solenoid (50%) Currently Mu3e is re-entering the tendering process Very strong support from Heidelberg University Magnet delivery most likely in 2019 Mu3e magnet Dirk Wiedner PSI 2/17 06.02.2017

Muon Stopping Target Hollow double cone Mylar ”sandwich” structure two/three rolled up foils glued with epoxy: Upstream: 75 µm Downstream: 85 µm 100 mm 38 mm Dirk Wiedner PSI 2/17 06.02.2017

Detector Power Dirk Wiedner PSI 2/17 06.02.2017