H. Weerts SLAC SLUO meeting; Sept 18, 2008 SiD-- a compact detector for ILC H.Weerts for SiD detector concept Argonne National Lab.

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Presentation transcript:

H. Weerts SLAC SLUO meeting; Sept 18, 2008 SiD-- a compact detector for ILC H.Weerts for SiD detector concept Argonne National Lab

H. Weerts SLAC SLUO meeting; Sept 18, Overview/Contents Physics requirements  detector requirements Detectors being considered for LC Concepts underlying SiD The SiD Detector Who is SiD ? Why do this now? Current activities/Summary

H. Weerts SLAC SLUO meeting; Sept 18, What should ILC detector be able to do ? Identify ALL of the constituents that we know & can be produced in ILC collisions & precisely measure them. u,d,s jets; no ID c, b jets with ID t final states; jets + W’s ’s: missing energy; no ID e,  : yes  through decays  ID & measure gluon jets, no ID W,Z leptonic & hadronic Use this to measure/identify the NEW physics ( reconstruct the complete final state)

H. Weerts SLAC SLUO meeting; Sept 18, Main Detector Design Criteria Requirement for ILC  Impact parameter resolution  Momentum resolution  Jet energy resolution goal  Detector implications: u Calorimeter granularity u Pixel size u Material budget, central u Material budget, forward Compared to best performance to date  Need factor 3 better than SLD  Need factor 10 (3) better than LEP (CMS)  Need factor 2 better than ZEUS  Detector implications: u Need factor ~200 better than LHC u Need factor ~20 smaller than LHC u Need factor ~10 less than LHC u Need factor ~ >100 less than LHC Observation: Need substantial improvement in precision

H. Weerts SLAC SLUO meeting; Sept 18, Performance requirements/Physics requirements LC Physics calls for Jet Energy Resolution  E/E = 3-4% (factor of 2X better than today’s state of the art to resolve W’s/Z’s) Particle Flow Algorithms (PFAs) promise the needed gain in jet energy resolution PFA Calorimetry  Measure charged energy in tracker  Measure photon energy using electromagnetic calorimeter  Measure neutral hadron energy in hadronic calorimeter  Avoid confusion from charged tracks Measure the energy of every particle, not the energy deposited in calorimeter

H. Weerts SLAC SLUO meeting; Sept 18, Detector concepts being considered  VTX + SI + TPC + CAL + SC Mag (3~4T) + Muon  PFA OD ~ 14.4m, L ~ 15m  VTX + Si-based tracker + Si/W ECAL + HCAL + SC Mag (~5T) + Muon  Active use of Si technology  PFA OD ~ 12 m, L ~ 12 m IP  VTX + Cluster-counting tracker (low-mass) + CAL with dual-readout + Iron-free dual-solenoid (~1.6T/3T) + CluCou muon tracker.  Non PFA OD ~ 12.8 m, L ~ 15.4 m IP ILDSiD 4th

H. Weerts SLAC SLUO meeting; Sept 18, SiD Design Concept ( starting point)  “Jet Energy measurement =PFA” is the starting point in the SiD design  Premises at the basis of concept: u Particle flow calorimetry will deliver the best possible performance u Si/W is the best approach for the ECAL and digital calorimetry for HCAL u Limit calorimeter radius to constrain the costs u Boost B-field (5T)to maintain BR 2 u Use Si tracking system for best momentum resolution and lowest mass (5 layers) u Use pixel Vertex detector for best pattern recognition (5 layers) u Keep track of costs  Detector is a single fully integrated system, not just a collection of different subdetectors muon system solenoid HCAL SiD Compact: 12m x 12m x 12 m Robust in ILC operations (beam losses)

H. Weerts SLAC SLUO meeting; Sept 18, SiD Detector Overview My side overview; take picture from John SiD Starting Point Details & Dimensions Vertex detector: 5 barrels, 4 disks; R in = 1.4 cm Si tracking: 5 layers; R in = 18 cm HCAL Fe: 34 layers; R in = 138 cm Solenoid: 5 T; R in = 250 cm EMCAL Si/W: 30 layers R in = 125 cm Flux return/muon R in = 333 cm R out = 645 cm Si PFA

H. Weerts SLAC SLUO meeting; Sept 18, Calorimetry: ECAL & HCAL PFAs call for new types of calorimeters and readout… Si/W ECAL Highly Segmented HCAL RPC GEM  Mega 13 mm 2 pixels Readout 1k pixels per Si sensor (KPiX) Sensor + KPiX Example of R&D

H. Weerts SLAC SLUO meeting; Sept 18, Machine-Detector Interface The first step is to translate the parameters in an engineering model, formulating technical solutions, clearances and components integration QD0 Mask Bcal BeamPipe QDF Fwd Shielding QD0 Cryostat QD0 cryoline 4000 mm 5620 mm 2000 mm

H. Weerts SLAC SLUO meeting; Sept 18, Who is the SiD ? List of current institutions, signed EOI Laboratories and Institutes: Argonne National Laboratory Brookhaven National Laboratory Fermi National Accelerator Laboratory Institute of Physics, Prague Irfu, CEA/Saclay LAPP, CNRS/IN2P3 Université de Savoie LPNHE, CNRS/IN2P3 Universites Paris VI et Paris VII Lawrence Livermore National Laboratory Max Planck Institute, Munich Physical Sciences Laboratory, Wisconsin Rutherford Appleton Laboratory Stanford Linear Accelerator Center Imperial College, London Indiana U. U. of Iowa Kansas State U. Kyungpook National U. U. of Melbourne U. of Michigan Massachusetts Institute of Technology U. of Mississippi U. of New Mexico Northern Illinois U. U. of Notre Dame U. of Oregon Oxford U. U. of Pierre and Marie Curie LPNHE Princeton U. Purdue U. U. of Rochester Seoul National U. State U. of New York, Stony Brook Sungkyunkwan U. U. of Texas, Arlington U. of Tokyo U. of Washington Wayne State U. U. of Wisconsin Yale U. Yonsei U. Universities: U. of Bonn U. of Bristol Brown U. U. of California, Davis U. of California, Santa Cruz Charles U., Prague U. of Chicago Chonbuk National U. U. of Colorado, Boulder Colorado State U. Participating or will participate in developing SiD concept

H. Weerts SLAC SLUO meeting; Sept 18, Who is SiD ? SiD organization chart EXECUTIVE COMMITTEE H.Aihara, J.Brau, M.Breidenbach, P.Burrows, M.Demarteau, J.Jaros, J.Karyotakis, M.Oreglia, H.Weerts & A.White SOLENOID FLUX RET K.Krempetz VERY FORWARD H.Murayama SIMULATION N.Graf MDI P.Burrows T.Markiewicz T.Tauchi VERTEXING Su Dong Ron Lipton Mech: W.Cooper CALORIMETERS A.White ECAL:R.Frey/D.Strom HCAL:A.White/H.Weerts PFA:N.Graf/S.Magill MUON H.Band H.E.Fisk BENCHMARKING T.Barklow A..Nomerotski COST M.Breidenbach R& D COORDINATOR A. White ADVISORY COMMITTEE All names on this chart Electronics G.Haller Engineering K.Krempetz M.Oriuno LOI Editors H.Aihara, P.Burrows, M.Oreglia Sept 2008

H. Weerts SLAC SLUO meeting; Sept 18, Why do this now ? and not later Close coupling between machine  detector(=one piece) “Critical for machine design” R&D to meet detector performance takes long time Physics simulation = physics performance of “complex” can only be done with a machine & detector concept B.Barish Physics requirements drive detector concepts, which guide/define R&D Detector concepts develop frameworks to do this Detector concept & development integral part of any LC. Accelerator  Experiment

H. Weerts SLAC SLUO meeting; Sept 18, SiD concept current activities/Summary R&D Areas somewhat driven by SiD: KPiX, Si tracker, solenoid cable Areas more generic: ECAL & HCAL technologies, vertex pixels detectors. LOI ILCSC/Research Director (RD) called for detector LOI’s in October 2007 SID submitted EOI to submit LOI LOI’s due March 2009 Most activities guided by this due date Expect validation through LOI process as one of the detectors to be part of the ILC technical design phase Ultimately build it Document SiD & its performance ILC/GDE Interaction with ILC through Machine Detector Interface (MDI): detector halls, layout, connections to machine, backgrounds, push-pull, etc (physics)

H. Weerts SLAC SLUO meeting; Sept 18, The End