Report about “Forward Instrumentation” Issues

Slides:



Advertisements
Similar presentations
TIME 2005: TPC for the ILC 6 th Oct 2005 Matthias Enno Janssen, DESY 1 A Time Projection Chamber for the International Linear Collider R&D Studies Matthias.
Advertisements

Proposal for a new design of LumiCal R. Ingbir, P. Ruzicka, V. Vrba October 07 Malá Skála.
Guoming CHEN The Capability of CMS Detector Chen Guoming IHEP, CAS , Beijing.
Zhiqing Zhang (LAL, Orsay) 30/5-3/6/ SM Background Contributions Revisited for SUSY DM Stau Analyses Based on 1.P. Bambade, M. Berggren,
TESLA R&D: LCAL/LAT Achim Stahl DESY Zeuthen Cracow Tel Aviv Minsk Prague Colorado Protvino UCL London Dubna.
P hysics background for luminosity calorimeter at ILC I. Božović-Jelisavčić 1, V. Borka 1, W. Lohmann 2, H. Nowak 2 1 INN VINČA, Belgrade 2 DESY, Hamburg.
Introduction to Hadronic Final State Reconstruction in Collider Experiments Introduction to Hadronic Final State Reconstruction in Collider Experiments.
SUSY small angle electron tagging requirements Philip Bambade LAL-Orsay MDI workshop - SLAC 6-8 January 2005 With M. Berggren, F. Richard, Z. Zhang + DESY.
Background Studies Takashi Maruyama SLAC ALCPG 2004 Winter Workshop January 8, 2004.
LCFI A Vertex Detector for the International Linear Collider  International Linear Collider (ILC): consensus that ILC will be next major particle accelerator.
1 Benchmarking the SiD Tim Barklow SLAC Sep 27, 2005.
1 Physics Impact of Detector Performance Tim Barklow SLAC March 18, 2005.
The SLHC and the Challenges of the CMS Upgrade William Ferguson First year seminar March 2 nd
David Attié Club ‘ILC Physics Case’ CEA Saclay June 23, 2013 ILD & SiD concepts and R&D.
August 2005Snowmass Workshop IP Instrumentation Wolfgang Lohmann, DESY Measurement of: Luminosity (precise and fast) Energy Polarisation.
August 2005Snowmass Workshop Instrumentation of the Very Forward Region of a Linear Collider Detector Wolfgang Lohmann, DESY.
Karsten Büßer Beam Induced Backgrounds at TESLA for Different Mask Geometries with and w/o a 2*10 mrad Crossing Angle HH-Zeuthen-LC-Meeting Zeuthen September.
Effect of the Shape of the Beampipe on the Luminosity Measurement September 2008 Iftach Sadeh Tel Aviv University DESY.
1 LumiCal Optimization and Design Takashi Maruyama SLAC SiD Workshop, Boulder, September 18, 2008.
Jan MDI WS SLAC Electron Detection in the Very Forward Region V. Drugakov, W. Lohmann Motivation Talk given by Philip Detection of Electrons and.
Karsten Büßer Beam Induced Backgrounds at TESLA for Different Mask Geometries with and w/o a 2*10 mrad Crossing Angle LCWS 2004 Paris April 19 th 2004.
BeamCal Simulations with Mokka Madalina Stanescu-Bellu West University Timisoara, Romania Desy, Zeuthen 30 Jun 2009 – FCAL Meeting.
March 2004LCWS Stanford Instrumentation of the Very Forward Region of a Linear Collider Detector Wolfgang Lohmann, DESY.
International Workshop on Linear Colliders, Geneve Muon reconstruction and identification in the ILD detector N. D’Ascenzo, V.Saveliev.
Impact parameter resolution study for ILC detector Tomoaki Fujikawa (Tohoku university) ACFA Workshop in Taipei Nov
2. December 2005Valencia Workshop Very Forward Region Instrumentation Wolfgang Lohmann, DESY Basic functions: - Hermeticity to small polar angles - Fast.
July 2006ALCWS Vancouver Very Forward Instrumentation of the Linear Collider Detector On behalf of the Wolfgang Lohmann, DESY.
September, 19 FCAL Worlshop in Tel Aviv W. Lohmann, DESY Physics Requirements Input From Theory Lessons from LEP LumiCal Simulations BeamCal.
Septembre SLAC BeamCal W. Lohmann, DESY BeamCal: ensures hermeticity of the detector to smallest polar angles -important for searches Serves as.
Karsten Büßer Instrumentation of the Forward Region of the TESLA Detector International Europhysics Conference on High Energy Physics Aachen, July 19th.
BES-III Workshop Oct.2001,Beijing The BESIII Luminosity Monitor High Energy Physics Group Dept. of Modern Physics,USTC P.O.Box 4 Hefei,
Positional and Angular Resolution of the CALICE Pre-Prototype ECAL Hakan Yilmaz.
Impact parameter resolutions for ILC detector Tomoaki Fujikawa (Tohoku university) ACFA Workshop in Taipei Nov
Takeshi Matsuda LC TPC Collaboration March 5, 2008 TPC Endcap Materials.
February, INP PAN FCAL Workshop in Cracow W. Lohmann, DESY The BCD (Baseline Configuration Document) The next calendar dates Where we are with FCAL.
2° ILD Workshop Cambridge 11-14/09/08 The sensitivity of the International Linear Collider to the     in the di-muon final state Nicola D’Ascenzo University.
1 Calorimeters of the Very Forward Region Iftach Sadeh Tel Aviv University DESY Collaboration High precision design March 5 th 2008.
16 February 2009CLIC Physics & Detectors Konrad Elsener 1... some issues regarding the forward region... (“picking up” from Lucie Linssen, 29 Sept 2008)
The Luminosity Calorimeter Iftach Sadeh Tel Aviv University Desy ( On behalf of the FCAL collaboration ) June 11 th 2008.
1 LumiCal Optimization Simulations Iftach Sadeh Tel Aviv University Collaboration High precision design May 6 th 2008.
The Very Forward Region of the ILC Detectors Ch. Grah FCAL Collaboration TILC 2008, Sendai 04/03/2008.
October DESY PRC Instrumentation of the Very Forward Region of a Linear Collider Detector Univ. of Colorado, Boulder, AGH Univ., INP & Jagiell.
1/24 SiD FCAL Takashi Maruyama Tom Markiewicz SLAC TILC’09, Tskuba, Japan, April 2009 Contributors: SLAC M. BreidenbachFNALW. Cooper G. Haller K.
September 2007SLAC IR WS Very Forward Instrumentation of the ILC Detector Wolfgang Lohmann, DESY Talks by M. Morse, W. Wierba, myself.
LumiCal background and systematics at CLIC energy I. Smiljanić, Vinča Institute of Nuclear Sciences.
5 May 2006Paul Dauncey1 The ILC, CALICE and the ECAL Paul Dauncey Imperial College London.
1 LoI FCAL Takashi Maruyama SLAC SiD Workshop, SLAC, March 2-4, 2009 Contributors: SLAC M. BreidenbachFNALW. Cooper G. Haller K. Krempetz T. MarkiewiczBNLW.
Eunil Won/Korea U1 A study of configuration for silicon based Intermediate Trackers (IT) July Eunil Won Korea University.
Octobre 2007LAL Orsay Very Forward Instrumentation of the ILC Detector Wolfgang Lohmann, DESY.
Tracking: An Experimental Overview Richard Partridge Brown / SLAC Fermilab ALCPG Meeting.
FCAL Krakow meeting, 6. May LumiCal concept including the tracker R. Ingbir, P.Růžička, V. Vrba.
FP-CCD GLD VERTEX GROUP Presenting by Tadashi Nagamine Tohoku University ILC VTX Ringberg Castle, May 2006.
I nstrumentation of the F orward R egion Collaboration High precision design ECFA - Durham2004 University of Colorado AGH University, Cracow I nstitute.
Very Forward Instrumentation: BeamCal Ch. Grah FCAL Collaboration ILD Workshop, Zeuthen Tuesday 15/01/2008.
William Morse ILC R&D April 19, ILC Detector R&D William Morse Physics Dept., BNL.
Potential and challenges of the physics measurements with very forward detectors at linear colliders Ivanka Bozovic Jelisavcic [on behalf of the FCAL Collaboration]
Initial proposal for the design of the luminosity calorimeter at a 3TeV CLIC Iftach Sadeh Tel Aviv University March 6th 2009
Electroweak Physics Towards the CDR
IOP HEPP Conference Upgrading the CMS Tracker for SLHC Mark Pesaresi Imperial College, London.
Layout of Detectors for CLIC
Requirements and Specifications for Si Pixels Sensors
The Optimized Sensor Segmentation for the Very Forward Calorimeter
Detectors for Linear Colliders - ILC and CLIC -
Simulation study for Forward Calorimeter in LHC-ALICE experiment
Calorimeters of the Very Forward Region
Detector Optimization using Particle Flow Algorithm
The Very Forward Region of the ILC Detectors
Impact of Efficient e Veto on Stau SUSY Dark Matter Analyses at ILC
M. Ohlerich, A. Raspiareza, W. Lohmann DESY and MPI Munich
Presentation transcript:

Report about “Forward Instrumentation” Issues W. Lohmann 3/06/2008 DESY Physics issues Calorimetry, Pair Monitor Tracking Particle ID 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Physics issues: Measurement of the Luminosity , I. Sadeh Impact on SUSY searches (valid for all signatures with “large missing momentum and small depositions in the Calorimeter), T. Rizzo, Z. Zhang 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai The measurement of the luminosity is a prerequisite for any cross section measurement! Required precision is: Measure luminosity by counting the number of Bhabha events (N): Definition of a fiducial volume needs a precison device Input from theorists needed ! 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai SUSY particles Problem with staus –Small depositions in the detector - Large SM backgrounds g*g*  t+t-(Et>4.5GeV): s~4.3x105 fb  m+m- (Et>2GeV): s~5.2x106 fb  hadrons (direct*direct dominant) ccbar s~8.2x105 fb  WW e+e-  m+m-, t+t-: s~1.0x103 fb few fb Since we don’t know how SUSY is broken- study of 242 points in the MSSM parameter space (in particular 162 points leading to “degenerate signatures @LHC) Needed: - electron veto in the very forward region - muon detection down to a few mrad to suppress e.g. g e- e- m+ m- May escape @ small angle SM background t pair signature 11/11/2018 ACFA Linear Collider Workshop, Sendai

mSUGRA Scenario D’, small Dm: The angular distribution of spectator e± SM background ggtt generated at Ecm of 500GeV Method 1 Method 1 2 ssignal[fb]*eeff 0.456*5.7% 10*6.4% sbkg[fb] (w/o VETO) 561 168 (+VETO) 0.08 0.26 S/B ~0.3 ~2.5 High electron VETO efficiency at small polar angles is mandatory improvent possible in case of mip detection capability at small polar angle 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Calorimetry, Pair Monitor: Forward Calorimeters , I. Sadeh Pair Monitor: K. Ito, R. Sasaki 11/11/2018 ACFA Linear Collider Workshop, Sendai

LumiCal BeamCal beamstrahlung GamCal Layout of the Forward Region ECal and Very Forward Tracker acceptance region. Precise measurement o the Integrated Luminosity (ΔL/L ~ 10-4). Provide 2 photon veto. LumiCal ~85 mrad BeamDiagnostics using beamstrahlung pairs. Provide 2 photon veto. ~40 mrad BeamCal 5 mrad BeamDiagnostics using beamstrahlung photons. GamCal beamstrahlung IP Challenges: High precision, high occupancy,high radiation dose, fast read-out! LumiCal, BeamCal: compact sampling calorimeters, RM~1 cm 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai BeamCal Beamstrahlung depositions Deposition of a single high energy electron High electron VETO efficiency at small polar angles possible 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai LumiCal Detaild studies on granularity, systematics, background New: cluster separation for e+e-g Mip detection capability Impact of a few pixel layers in front 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Pair Monitor Measurement of the flux density in front of BeamCal to determine beam parameters sx, sy Design and prototyping of a readout chip, first tests successful 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Tracking Silicon pixel tracker , K. Stefanov Optimisation studies: W. Mitaroff TPC endcap material budget: T. Matsuda Tracking Performance: M. Vos 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Silicon Pixel tracker Replace strip detectors by pixel devices, CCD or MAPS CCD: integration of a full bunch train, MAPS: Time slicing or bunch stamping possible 70 m2 tracker with 5050 μm2 pixels, 28 Gpixel system Total power dissipation (CCD)  600 W (0.86 mW/cm2) Higher occupancy in the forward region may require MAPS technology; First experience with the CALICE ASIC1 for MAPS-based ECAL (designed at RAL) Functionally very close to bunch stamping tracker 50 μm  50 μm pixels on 0.18 μm CMOS process Targets S/N > 10, preliminary S/N = 6.5 Power dissipation might be an issue. R&D necessary 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Forward Tracking Optimistion Using a fast simulation several tracker geometries and pixel sizes are studied An additional disc at z = 2160 mm Clear improvement of momentum resolution of tracks missing the TPC (Those tracks also miss the Vertex Detector and the innermost Forward Pixel Disc!) 15% gain for low pt 20% gain for high pt Same impact of material budget and pitch as before therefore adding an 8th disc is not yet an “overinstrumentation” 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai TPC Endcap Material Budget Not stretching wires  Lighter detector module with the new MPGD/SiTPC in principle. ALEPH TPC Thickness (radiation thickness Pad plane: G10 X0 = 19.4cm 0.4cm  2 % Cu X0 = 1.43 cm 0.03cm (8 layers)  2 % Subtotal 5 % Endplate (mechanical) : Scaled from ALEPH (Al) = 13%Xo Be; Strength (Be/Al) = 4   ~ 1% CFRP Xo (CFRP/Al) = 1.5 Strength (CFRP/Al) =2   ~ 4%    5 % Cooling (piping) Xo (Al) = 8.9cm 0.2cm    0.2% 1%             Total    15 % 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Tracking Performance in the Forward Region TESLA More challenging Occupancy due to pairs Large distance (10-30 cm) between disks lead to large extrapolation errors, particular forlow momentum tracks tt event Readout after < 10 BX 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Coordinated effort in Spain ongoing 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Particle ID performance: M. Ohlerich 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Tracking Performance in the Forward Region 10 GeV tracks Electron momentum measurement is less performant, due to bremsstrahlung in the detector material 11/11/2018 ACFA Linear Collider Workshop, Sendai

ACFA Linear Collider Workshop, Sendai Particle ID performance Electron, Muon, Pions, Photons, Higgs-strahlung sample ID efficiency vs q ID purity vs q Electron sample contains photons, due to conversions, Pion sample also contaminated by photons because of high particle density in jets 11/11/2018 ACFA Linear Collider Workshop, Sendai

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.