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Overview of SiD Tracking Rob Kutschke,Fermilab LSWS07 June 1, 2007 (Layer 5) (Layer 1) VXD.

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Presentation on theme: "Overview of SiD Tracking Rob Kutschke,Fermilab LSWS07 June 1, 2007 (Layer 5) (Layer 1) VXD."— Presentation transcript:

1 Overview of SiD Tracking Rob Kutschke,Fermilab LSWS07 June 1, 2007 (Layer 5) (Layer 1) VXD

2 6/1/2007Kutschke - SiD Tracking2 SiD Tracking Philosophy Vertex Detector (pixels) –Provides high precision measurements of tracks and vertices. –~3  m typical resolution on primary vertex position. –Provides and initial measurement of momentum. Outer Silicon Tracker (strips) – ~7  m position resolution per measurement. –Measures p T. –Together with track direction from vertex detector, measures p. –Connects tracks to calorimeters. –This talk concentrates on this device. Calorimeters –MIP stubs in calorimeter can be used by tracking. Expected p T resolution in a 5 T field. –  p T / p T 2 )< 2x10 -5 (GeV/c) -1 for 90 o, high momentum tracks.

3 6/1/2007Kutschke - SiD Tracking3 Vertical Section 164.1 cm 125 cm Beampipe Vertex Detector (pixels) 5 Layer Barrel Tracker ( axial strips) Forward Tracker Disks (crossed strips)

4 6/1/2007Kutschke - SiD Tracking4 Detail near Beamline Barrel Tracker Layer 1 5 Layer Vertex Barrel 4 forward disks Forward tracker disk 3 forward disk inserts

5 6/1/2007Kutschke - SiD Tracking5 Tracker Options Forward Tracker disks: –Sensor tiling not yet developed. –Crossed pairs of 1-sided sensors (baseline). –2-sided sensors? –Pixels at low radii? Rectangular? Square? Hexagonal? Barrel: –Do we need more layers? –Should some layers be stereo, small angle, large angle? –Is strip length short enough to avoid double hits? Use of charge division to get coordinate along strip. Do we need a layer in the big radial gap between the vertexer and tracker? To answer most of these questions, we need to understand if we have the redundancy necessary for robust pattern recognition.

6 6/1/2007Kutschke - SiD Tracking6 Major Support Structures Mounted from ECAL. Barrel sensors supported by double walled cylinder made of 3-ply quasi-isotropic carbon-fiber-resin laminate, ~0.11% radiation length per layer. –Layers within cylinder separated by Rohacell. –Openings cut into structure to reduce mass. Final configuration must meet stiffness specs. Must also know about module mounting locations. Barrels connected via carbon fiber laminate rings. Forward disks have support structures of same style as for barrel, but flat. Confidence in design from D0 Run IIa CFT experience. Details in talk by Bill Cooper at Beijing Tracking review.Bill Cooper at Beijing Tracking review

7 6/1/2007Kutschke - SiD Tracking7 Barrel Tracker Layout Single module design tiles entire barrel. 25 micron trace pitch 50 micron readout pitch Goal S/N > 25. Sensor module size: –0.3 x 9.65 x 9.65 cm 3 –Fits on one 6” wafer Active area: –9.2 x 9.2 cm 2 Readout options: –KPiX (baseline) –Charge Division –Time over threshold. –Open to other options when sample chips available. –All have single bunch crossing timing.

8 6/1/2007Kutschke - SiD Tracking8 KPix Option Baseline option. KPiX chip used in the ECAL. Bump bonded in central location. 4 analog buffers. Readout between trains. AC coupled to strips Double metal layer: –Route signals and power Power traces cross some signal traces: –Noise characteristics to be studied with test pieces. Detailed cable and trace designs completed. See Tim Nelson’s talk at Beijing.Tim Nelson’s talk at Beijing

9 6/1/2007Kutschke - SiD Tracking9 Charge Division Option Shaping time optimized for charge div ( a few beam crossings). Does not need double metal. Can be wire bonded at each end. Requires DC coupling. Estimate resolution of 5.5 mm along strip. Estimate resolution on tan of 0.007. –Comparable to small angle stereo strips. Test sensors in next submission. See Rich Patridge's talk at Beijing.Rich Patridge's talk at Beijing

10 6/1/2007Kutschke - SiD Tracking10 Time Over Threshold Option Measure time that a comparator is above a given threshold. Infer deposited charge from length of time. Measured quantity is digital time –No analog buffering needed. Requires shaping time of O(10) beam crossings. See Bruce Schumm's talk in following session.Bruce Schumm's talk in following session

11 6/1/2007Kutschke - SiD Tracking11 Sensor Submission Submission for test sensors has been prepared and reviewed by Hamamatsu. Will be submitted in next weeks and we request delivery by October 2007. Has pads for both bump bonding (KPiX) and wire bonding. Has test strips designed to testing all readout options.

12 6/1/2007Kutschke - SiD Tracking12 FSI Alignment Frequency Scanned Interferometry (FSI) U. Michigan group. Technique pioneered in by Oxford for ATLAS. Measure fringe shift as frequency is scanned. Measure hundreds of absolute distances within detector. Yang et. al., Applied Optics, 44 (3937-44), 2005. Yang and Riles, Physics/0609187 submitted to Applied Optics. Use 2 lasers to lower systematics. 0.20 microns RMS resolution demonstrated.

13 6/1/2007Kutschke - SiD Tracking13 Power Related Questions Use power cycling to reduce average heat load. –Assume 20  watt / readout channel when on. –Assume disks have same power dissipation per unit area as barrel. –Total average power dissipation: ~500 watt. Dry air cooling @ 100 cfm will do it. –Still needs detailed study of heat flow and of air flow design. Lorentz force induced vibrations? –Use optical measurements on prototypes to validate stiffness of the structure when it is driven at 5 Hz. –Can also monitor vibrations using FSI system.

14 6/1/2007Kutschke - SiD Tracking14 StdHep Events SLIC LCDD XML LCIO Events Geom Converter Compact XML org.lcsim JAS3 WIRED4 AIDA HepRep XML Conditions Software Package Data Format User Analysis Drivers SiD/ALCPG Framework See talk by Norman Graf in Sim-Reco section yesterday.

15 6/1/2007Kutschke - SiD Tracking15 Recent Updates to Framework For early work, barrels were modeled as cylinders, a powerful abstraction for rapid scans of the parameter space. Now modeled as heirarchical collections of planar sensors. Required for detailed modeling of buildable detectors. Now updating reconstruction code to work with the new geometry abstraction. –Results expected soon.

16 6/1/2007Kutschke - SiD Tracking16 Track Finding Strategies(1) Most physics tracks originate inside layer 2 of the vertex detector: –Find these tracks in vertex detector and add hits in the tracker. –Highly efficient for these tracks. –Must extend this to the forward region. About 5% of all physics tracks originate outside layer 2 of the vertex detector. –What to do about them?  = angle from jet axis (rad) Tracks in 500 GeV q-qbar event that originate < 1 cm from beamline Barrel only.

17 6/1/2007Kutschke - SiD Tracking17 Track Finding Strategies (2) MIP Seed –Find MIP stub in ECAL, not matched to existing track and use it as a seed. –See next talk by Dima Onaprienko.next talk by Dima Onaprienko Standalone pattern recognition. –See talk by Bruce Schumm in Sim-Reco sesssion yesterday.talk by Bruce Schumm in Sim-Reco sesssion yesterday –Charge division would help this strategy.

18 6/1/2007Kutschke - SiD Tracking18 Summary An integrated design for the SiD tracking system exists but it needs optimization and refinement. –In order to achieve the ILC physics goals, SiD will exploit the superb hit resolution, two track separation, design flexibility and timing properties offered by silicon strip detectors. When designing each component, it is critical to undestand its role within this integrated system. –Particularly true for SiD tracker in which optimization of the design will need to be done by evaluating in the pattern recognition power in the face of all backgrounds. Simulation and reconstruction tools now available to study buildable geometries instead of idealized cylinders. –Must repeat studies with these tools and extend the studies to include the forward region. –This will provide critical feedback for optimizing the design. A comprehensive R&D program is in place to perform the R&D to succeed in this effort.

19 6/1/2007Kutschke - SiD Tracking19 Tracking R&D Summary SystemWork PackageInstitutions MechanicalSupport DesignFNAL, SLAC, Washington Module DesignFNAL, SLAC FSI AlignmentMichigan SensorDouble Metal SensorFNAL, SLAC, Tokyo Thin SiliconPurdue Characterization and testingNew Mexico, SLAC ReadoutKPiXDavis, Orgeon, SLAC Time Over ThresholdSanta Cruz Charge DivisionBrown, Santa Cruz CablesKPiX CableNew Mexico, SLAC Simulation and Reconstruction Simulation InfrastructureOrgeon, SLAC Vertex Seeded TrackingBrown, Colorado, FNAL, Oregon, Santa Cruz Standalone trackingFNAL, Santa Cruz, SLAC Calorimeter Assisted trackingKansas State (Bonn) Fitting and ResolutionOregon, Santa Cruz, SLAC

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