15 February 2007Dirk Wiedner / LHCb1 Radiation Monitors for LHCb.

Slides:



Advertisements
Similar presentations
J-C. BRIENT (LLR) 1  Introduction with pictures  Prototype design and construction  R&D on the design of the full scale calorimeter CALICE - ECAL silicon-tungsten.
Advertisements

Workshop on Silicon Detector Systems, April at GSI Darmstadt 1 STAR silicon tracking detectors SVT and SSD.
Plot Approval Yat Long Chan (CUHK) Igor Mandic (Ljubljana) Charlie Young (SLAC)
The LHCf experiment Measurement of Photons and Neutral Pions in the Very Forward Region of LHC Letter Of Intent: May 2004 Technical report: September 2005.
The LHCb Inner Tracker Marc-Olivier Bettler SPS annual meeting Zürich 21 February 2007.
The Detector Control System for the ATLAS SemiConductor Tracker
Module Production for The ATLAS Silicon Tracker (SCT) The SCT requirements: Hermetic lightweight tracker. 4 space-points detection up to pseudo rapidity.
5 th LHC Radiation Day Radiation response of RADMON sensors T. Wijnands (TS/LEA), C. Pignard (TS/LEA) Acknowledgements : UCL Louvain-La-Neuve, PSI Villingen,
The LHCb Inner Tracker LHCb: is a single-arm forward spectrometer dedicated to B-physics acceptance: (250)mrad: The Outer Tracker: covers the large.
Status of the Active Sensors Federico Ravotti (CERN TS/LEA) Maurice Glaser, Michael Moll (CERN PH/DT2) Susanna Guatelli, Maria Grazia Pia (INFN, Genova.
Experimental Area Meeting V. Bobillier1 Good connection to earth (in many points) of every metallic parts to be installed in the cavern is very.
Active Dosimeters Federico Ravotti Maurice Glaser, Michael Moll
1 Integrating Radiation Monitoring System for the ATLAS Detector at the Large Hadron Collider Igor Mandić 1, Vladimir Cindro 1, Gregor Kramberger 1 and.
ATLAS Radiation Monitor integrating monitor integrating monitor Igor Mandić, Vladimir Cindro, Andrej Gorišek, Gregor Kramberger, Marko Mikuž, Marko Zavrtanik.
J.M. Heuser — CBM Silicon Tracker 1 Johann M. Heuser, GSI Darmstadt CBM Collaboration Meeting JINR Dubna, 15 October 2008 CBMCBM Review of the first in-beam.
Towards a Detector Control System for the ATLAS Pixeldetector Susanne Kersten, University of Wuppertal Pixel2002, Carmel September 2002 Overview of the.
The LHCf experiment Measurement of Photons and Neutral Pions in the Very Forward Region of LHC Letter Of Intent: May 2004 Technical report: September 2005.
Radiation Sensor Characterization for the LHC Experiments
Online Radiation Dose Measurement System for ATLAS experiment I. Mandić a, representing ATLAS collaboration a Jožef Stefan Institute, Jamova 39, Ljubljana,
Housing for Passive Radiation Sensors Ch. Ilgner, February 15, 2007 Proposal for a versatile easy-to-use passive sensor housing for radiation monitoring.
Anatoli Konoplyannikov Design and integration of HV, LED monitoring and calibration system for HCAL Overview of the subsystems design High voltage.
Online Radiation Dose Measurement System for ATLAS experiment I. Mandić a, V. Cindro a, I. Dolenc a, A. Gorišek a, G. Kramberger a, M. Mikuž a,b, J. Hartert.
Monitoring system of the LHCb electromagnetic calorimeter NEC’2007, Varna, Bulgaria Ivan Korolko (ITEP Moscow)
Calibration UV LED system for CALICE scintillator based Tile Hadron Calorimeter Ivo Polák on behalf of the CALICE Collaboration Institute of Physics of.
Maria Grazia Pia Simulation for LHC Radiation Background Optimisation of monitoring detectors and experimental validation Simulation for LHC Radiation.
High-resolution, fast and radiation-hard silicon tracking station CBM collaboration meeting March 2005 STS working group.
ATLAS Forward Detector Trigger ATLAS is presently planning to install forward detectors (Roman Pot system) in the LHC tunnel with prime goal to measure.
Installation and operation of the LHCb Silicon Tracker detector Daniel Esperante (Universidade de Santiago de Compostela) on behalf of the Silicon Tracker.
Status of Beam loss Monitoring on CTF3 Results of Tests on LINAC and PETS as R&D for TBL Anne Dabrowski Northwestern University Thibaut Lefevre CERN CTF3.
High Dose Irradiation of Possible FCAL Sensors at the S-DALINAC Ch.Grah Physics and Detector Meeting DESY HH,
5th July 00PSI SEU Studies1 Preliminary PSI SEU Studies Study SEU effects by measuring the BER of the link in  /p beams at PSI. Measure the SEU rate as.
Upgrade of the CMS hadron outer calorimeter with SiPM’s
The ALICE Forward Multiplicity Detector Kristján Gulbrandsen Niels Bohr Institute for the ALICE Collaboration.
First Results from the Online Radiation Dose Monitoring System in ATLAS Experiment ______________________________________________________________________________________________________.
Dmitri Ossetski Obninsk State University Department of Applied Mathematics
Institute for Nuclear Research and Nuclear Energy Dimitrov L.P., Iaydjiev P.S., Mitev G.M., Vankov I.V.
26 June 2006Imaging2006, Stockholm, Niels Tuning 1/18 Tracking with the LHCb Spectrometer Detector Performance and Track Reconstruction Niels Tuning (Outer.
K. Matsuoka (Kyoto Univ.) for T2K muon monitor group
- Performance Studies & Production of the LHCb Silicon Tracker Stefan Koestner (University Zurich) on behalf of the Silicon Tracker Collaboration IT -
1 Calorimeters LED control LHCb CALO meeting Anatoli Konoplyannikov /ITEP/ Status of the calorimeters LV power supply and ECS control Status of.
Assumptions: Cockcroft-Walton photomultiplier bases are the same for all ECAL sections Digital to analog converters are installed on the distribution boards.
CHIPP meeting Appenberg, 24 Aug 2009 Preparation for LHC beam, Jeroen van Tilburg 1/15 Jeroen van Tilburg (Universität Zürich) LHCb: Preparation for LHC.
August DESY-HH VFCAL Report W. Lohmann, DESY Infrastructure for sensor diagnostics FE Electronics Development Sensor test facilities Laser Alignment.
26/May/2008Calor LHCb Preshower(PS) and Scintillating pad detector (SPD): commissioning, calibration, and monitoring Eduardo Picatoste Universitat.
Polycrystalline CVD Diamonds for the Beam Calorimeter of the ILC C.Grah ILC ECFA 2006 Valencia, 9 th November 2006.
ATLAS DCS ELMB PRR, March 4th 2002, H.J.Burckhart1 Embedded Local Monitor Board ELMB  Context  Aim  Requirements  Add-ons  Our aims of PRR.
Technical Design for the Mu3e Detector Dirk Wiedner on behalf of Mu3e February Dirk Wiedner PSI 2/15.
News on Mechanical Design Dirk Wiedner July /4/20121Dirk Wiedner Mu3e meeting Zurich.
Peter Križan, Ljubljana September 17, 2008 SuperB PID Peter Križan University of Ljubljana and J. Stefan Institute Forward PID: - SiPM as photon detectors.
Pixel Sensors for the Mu3e Detector Dirk Wiedner on behalf of Mu3e February Dirk Wiedner PSI 2/15.
Very Forward Instrumentation: BeamCal Ch. Grah FCAL Collaboration ILD Workshop, Zeuthen Tuesday 15/01/2008.
RD42 Status Report W. Trischuk for the RD42 Collaboration LHCC Meeting – June 12, 2013 Development of CVD Diamond Tracking Detectors for Experiments at.
Passive Dosimeters for the LHC Experiments M.Moll, M.Glaser, C.Joram CERN – PH – TA1 – SD ( F.Ravotti CERN – TS -LEA RADMON – Technical.
IEAP – CTU Prague Measurement of neutron flux during irradiation in NPI Řež T. Slavíček, V. Linhart, S. Pospíšil Institute of Experimental and Applied.
K2K and JHF-nu muon monitor Jun Kameda (KEK) 1. K2K muon monitor 2. JHF-ν muon monitor 3. Summary International workshop on Neutrino Beam Instrumentation,
Integrating part of the ATLAS Radiation Monitor will measure
Development of ATLAS Radiation Monitor
The LHCb Calorimeter system
Technical Design for the Mu3e Detector
K2K and JHF-nu muon monitor
Compact readout unit for the EP-RADMON radiation monitoring sensors
Success is when preparation meets opportunity
The LHC collider in Geneva
The Pixel Hybrid Photon Detectors of the LHCb RICH
UNIZH and EPFL at LHCb.
Vertex Detector Overview Prototypes R&D Plans Summary.
The LHCb vertex detector
GEANT Simulations and Track Reconstruction
Setup for testing LHCb Inner Tracker Modules
PERFORMANCE OF THE METAL RADIATION MONITORING SYSTEMS
Presentation transcript:

15 February 2007Dirk Wiedner / LHCb1 Radiation Monitors for LHCb

15 February 2007Dirk Wiedner / LHCb2 Goals Radiation levels up to >10kGy predicted for 10 years of LHCb running Level of radiation has influence on detector and electronic performance Active radiation monitors give levels every second –Feedback during run possible ->background –Time correlation to electronics or detector performance possible –Calibrate simulated radiation levels

15 February 2007Dirk Wiedner / LHCb3 Radiation levels Radiation level in Bending plane over 5 years 2x years 5x10 32 [1/(cm 2 s)] Radiation level after RICH2 versus x-coordinate Gloria Corti

15 February 2007Dirk Wiedner / LHCb4 Radiation levels 10 3 to 10 4 Gy at silicon detectors 10 2 to 10 3 Gy at outer tracker and calorimeters 10 - >100 Gy at on detector electronics <10 Gy in bunker and balcony racks Estimates for 10 years of running

15 February 2007Dirk Wiedner / LHCb5 Active monitors Thin Oxide RadFET: 0.1 to 10 kGy Thick Oxide RadFET: to 10 Gy High sensitive silicon diode 10 8 to 2x MeV equ. Neutrons/cm 2 Particle detector diode to 5x MeV equ. Neutrons/cm 2 Temperature sensor Chosen by RADMON group

15 February 2007Dirk Wiedner / LHCb6 Position active monitors Detector acceptance –x-y cross section after RICH2 at 50/100/180/280 mrad –3 additional sensors along z at 320 mrad Electronics –12 sensors at major FE-electronic areas (boxes and racks) Reference in D3

15 February 2007Dirk Wiedner / LHCb7 Position top view

15 February 2007Dirk Wiedner / LHCb8 Package Small (few cm) package Low material budget –250 μm PCB 4 sensors + PT100 + reference resistor Developed by RADMON group

15 February 2007Dirk Wiedner / LHCb9 Measurement Threshold voltage for RadFETs Forward Voltage PIN-diode Leakage current detector diode Readout system developed by Ljubljana ATLAS group –ELMB has 64 ADC channels –ELMB DAC for I BIAS

15 February 2007Dirk Wiedner / LHCb10 Data logging ELMB has CANbus interface CAN to USB PVSS control 1Hz rate for radiation values Data archive: Condition DB

15 February 2007Dirk Wiedner / LHCb11 Radmon box TS/LEA LHC machine radiation monitor 10 installed at point 8 (Cryogenics) Allows x-check with RadFETs and diodes

15 February 2007Dirk Wiedner / LHCb12 Metal foil detector Aluminum foil sensor for inner Tracker –Developed by the Kiew group –28 cells covering 75 mm x 110 mm each –Complementary to RadFET/Diodes 218 mm 535 mm

15 February 2007Dirk Wiedner / LHCb13 Beam condition monitor Diamond sensors very close to the beam 3 stations with 8 sensors each Optical data transmission TELL1 DAQ board used CFC board CVD diamond

15 February 2007Dirk Wiedner / LHCb14 Passive sensors Installation at active monitor positions for x-check Additional 20 sensors per calorimeter: SPD/PS, ECAL, HCAL See talk of Ch. Ilgner

15 February 2007Dirk Wiedner / LHCb15 Positions Beam Condition Monitor Metal Foil Detector TS/LEA boxes Passive Radmon

15 February 2007Dirk Wiedner / LHCb16 Radiation background signal Radiation background at detector for LHC Combination of BCM, TS/LEA RADMON, Al-foil and active monitors Technical implementation to be seen

15 February 2007Dirk Wiedner / LHCb17 Next steps Lab setup with sensors, ELMB (DAC) Produce electronics for all 26 sensors Order 32 sets of sensors from RADMON group / M. Glaser

15 February 2007Dirk Wiedner / LHCb18 Summary Radiation map with RadFETs and diodes at 26 positions, ATLAS readout Passive monitor radiation map Dedicated radiation monitoring for –Inner tracker – metal foil detector –Beam condition – diamond sensors –Cryogenics at point 8 – TS/LEA box

15 February 2007Dirk Wiedner / LHCb19 Backup

15 February 2007Dirk Wiedner / LHCb20 Sensor details Sensitive P-I-N CMRP 10 8 –2×10 12 cm -2 High rate P-I-N BPW cm -2 RadFET thick Oxide CNRS –10 Gy RadFET thin Oxide REM Oxford 0.1–10kGy PT100 10KOhm reference resistor

15 February 2007Dirk Wiedner / LHCb21 Further sensors at LHCb Passive Dosimeters –Installation at same +additional positions for x-check –See talk of Ch. Ilgner Beam Condition Monitor –Diamond sensors very close to the beam RADMON box (TS/LEA) –LHC machine radiation monitor –10 installed at point 8 (Cryogenics) Aluminum foil sensor for inner Tracker, –Developed by the Kiew group –Complementary, covers IT detector

15 February 2007Dirk Wiedner / LHCb22 Metal foil detector 5 layers of Al foil –2 shield –2 acceleration –1 sensor

15 February 2007Dirk Wiedner / LHCb23 Metal foil principle

15 February 2007Dirk Wiedner / LHCb24 Metal foil signal flow

15 February 2007Dirk Wiedner / LHCb25 Metal foil sensor

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

© 2024 SlidePlayer.com Inc. All rights reserved.