ADC Performance and Calibration of MDT Chambers

Slides:

Advertisements

Similar presentations

20/Oct./2000 CF IEEE NSS 2000 at Lyon,France 1 An MWPC Readout Chip for High Rate Environment Introduction ASIC Structure & Fabrication ASIC Evaluation.

Advertisements

ATLAS Tile Calorimeter Performance Henric Wilkens (CERN), on behalf of the ATLAS collaboration.

Muon Data Quality and Performance A. Belloni - G. Zevi Della Porta for the ATLAS Harvard Group DOE Site Visit

Photodetector Timing Resolution Burle Micro-Channel Plate Photo Multiplier Tubes (MCP-PMTs) H. Wells Wulsin SLAC Group B Winter 2005.

Experimental Method Experimental Method Kihyeon Cho Kyungpook National University Spring Semester 2005 Experimental Method and Data Process.

DOE/NSF Review of ATLAS, 1 Mar 2000, BNL Muon MDT Front End Electronics (WBS 1.5.9) James Shank DOE/NSF Review of U.S. ATLAS Detector (with help from:

MDT-ASD PRR C. Posch30-Aug-02 1 Specifications, Design and Performance   Specifications Functional Analog   Architecture Analog channel Programmable.

1 Online data quality and monitoring M. Ellis Daresbury DAQ Meeting 31 st August 2005.

Muon Tracker Overview The PHENIX Muon Arms detect vector mesons decaying into muon pairs, allow the study of the Drell-Yan process, and provide muon detection.

Y. Karadzhov MICE Video Conference Thu April 9 Slide 1 Absolute Time Calibration Method General description of the TOF DAQ setup For the TOF Data Acquisition.

ATLAS MDT-ASD PRR – 30-August-2002George Brandenburg – Page 1 ATLAS MDT-ASD Operational Tests at Harvard George Brandenburg Michelle Dolinski Peter Hurst.

Octal ASD Certification Tests at Michigan J. Chapman, Tiesheng Dai, & Tuan Bui August 30, CERN.

Jianchun (JC) Wang, 08/21/99 RICH Electronics and DAQ Chip Carrier Short Cable Transition Board Long Cable Data Board Crate J.C.Wang Syracuse University.

DØ L1Cal Trigger 10-th INTERNATIONAL CONFERENCE ON INSTRUMENTATION FOR COLLIDING BEAM PHYSICS Budker Institute of Nuclear Physics Siberian Branch of Russian.

Performance of the PHENIX Muon Tracking System in Run-2 Ming X. Liu Los Alamos National Lab (for the PHENIX Collaboration) –Detector Commissioning –Detector.

Coincidence analysis in ANTARES: Potassium-40 and muons  Brief overview of ANTARES experiment  Potassium-40 calibration technique  Adjacent floor coincidences.

1 S. E. Tzamarias Hellenic Open University N eutrino E xtended S ubmarine T elescope with O ceanographic R esearch Readout Electronics DAQ & Calibration.

1 HBD Commissioning (II) Itzhak Tserruya HBD group meeting November 28, 2006 Progress from October 3 to November 28, 2006.

HCAL1 Status 2003 Oleg Gavrishchuk, JINR, Dubna 1. HCAL1 performance 2003 General design High Voltage system LED monitoring 2. Tests in muon halo beam.

P.Vincent LPNHE-Paris for H.E.S.S. collaboraton28 th ICRC - Tsukuba - Japan - 5, August 2003 Performance of the H.E.S.S. cameras Pascal Vincent (LPNHE.

Updates on GEMs characterization with APV electronics K. Gnanvo, N. Liyanage, K. Saenboonruang.

DC12 Commissioning Status GOALS: establish operating conditions, determine initial calibration parameters and measure operating characteristics for the.

ATLAS Liquid Argon Calorimeter Monitoring & Data Quality Jessica Levêque Centre de Physique des Particules de Marseille ATLAS Liquid Argon Calorimeter.

A N DY Status Commissioning with colliding beams (p  +p  at  s=500 GeV) L.C.Bland, for AnDY 8 March 2011 Time Meeting, BNL.

“End station A setup” data analysis Josef Uher. Outline Introduction to setup and analysis Quartz bar start counter MA and MCP PMT in the prototype.

MPPC Measurements at LSU Brandon Hartfiel LSU Hardware Group Thomas Kutter, Jessica Brinson, Jason Goon, Jinmeng Liu, Jaroslaw Nowak Sam Reid January 2009.

08-June-2006 / Mayda M. VelascoCALOR Chicago1 Initial Calibration for the CMS Hadronic Calorimeter Barrel Mayda M. Velasco Northwestern University.

The Status of the ATLAS Experiment Dr Alan Watson University of Birmingham on behalf of the ATLAS Collaboration.

Luca Spogli Università Roma Tre & INFN Roma Tre

Trip-t testing progress report

1 LHCb meeting Anatoli Konoplyannikov Introduction Which HV to be set before beam will come? Needed Constants PVSS data point type (DPT) format.

FSC Status and Plans Pavel Semenov IHEP, Protvino on behalf of the IHEP PANDA group PANDA Russia workshop, ITEP 27 April 2010.

1 Calorimeters LED control LHCb CALO meeting Anatoli Konoplyannikov /ITEP/ Status of the calorimeters LV power supply and ECS control Status of.

Feature Extractor Dima Chirkin, LBNL The future is here.

TTF - ECAL Plenary in CMS week ECAL Stability Contacts: Marc Dejardin, Julie Malcles (laser)

Quality control for large volume production GEM detectors Christopher Armaingaud On behalf of the collaboration GEMs for CMS.

Single tube detection efficiency BIS-MDT GARFIELD Simulation GARFIELD Simulation Anode wire voltage as a function of the distance from the wire Electric.

1 HBD Commissioning Itzhak Tserruya DC meeting, BNL December 13, 2006 Progress from October 3 to November 28, 2006.

AMS Software Review ACC DAQ Monitoring Ch Chung, A. Goerres, Th. Kirn I. Phys. Institute B, KSC, 31st January 2011.

Comparison of MC and data Abelardo Moralejo Padova.

S.MonteilPS COMMISSIONING1 MaPMT-VFE-FE ELECTRONICS COMMISSIONING AND MONITORING. OUTLINE 1)Ma-PMT TEST BENCHES MEASUREMENTS 2)VFE AND FE ELECTRONICS FEATURES.

ZDC Status A.Mestvirishvili Iowa. Quite while we had some problems with ZDC, QIE saturations, Reflections, Noise etc. To improve the situation several.

F Monitor of Beam in the Abort Gap Randy Thurman-Keup DOE Review of Tevatron Operations at FNAL March 29-31, 2005 a.k.a. Abort Gap Integrator (AGI)

HCAL1 Status 2004 Oleg Gavrishchuk, JINR, Dubna 1. HCAL1 performance in 2004 General design High Voltage system LED monitoring 2. Stability in 2003 Led.

Siena, May A.Tonazzo –Performance of ATLAS MDT chambers /1 Performance of BIL tracking chambers for the ATLAS muon spectrometer A.Baroncelli,

A. Tsirigotis Hellenic Open University N eutrino E xtended S ubmarine T elescope with O ceanographic R esearch Reconstruction, Background Rejection Tools.

Plots of RPC performance G. Cattani, University of Rome “Tor Vergata” & INFN Roma 2 on behalf of ATLAS Muon Collaboration.

14/02/2008 Michele Bianco 1 G.Chiodini & E.Gorini ATLAS RPC certification with cosmic rays Università del Salento Facoltà di Scienze MM.FF.NN.

1 XCAL LED quality check and time alignment consideration CALO meeting Anatoli Konoplyannikov [ITEP / LAPP] Outline  CALO sub-detector status.

The ATLAS Liquid Argon Calorimeter: Overview and Performance Huaqiao ZHANG (CPPM) On behalf of the ATLAS Liquid Argon Calorimeter Group.

Proposal for the after-pulse effect suppression  Observation of pulses and after-pulses  Shape measurement  Algorithm  Results  Efficiencies for after-pulse.

Analysis of LumiCal data from the 2010 testbeam

Laser Geiger cell (update)

Jinfan Chang Experimental Physics Center , IHEP Feb 18 , 2011

Marcin Chrząszcz Cracow University of Technology Itamar Levy

ATLAS Muon Spectrometer Calibration

“Separation of Muons and Doubly Charged Particles using MDT”

Calibration Status of the art – the first tTrig calculated from data

Pulse Shape Fitting Beam Test September, October CERN

Charged Particle Monitor onboard the ASTROSAT

Shifter Instructions regarding the ZD, Dan Peterson

BESIII EMC electronics

Commissioning of the ALICE-PHOS trigger

High Rate Photon Irradiation Test with an 8-Plane TRT Sector Prototype

Univerity of rome “Tor Vergata”

B. Genolini for the IPNO detector dept.

Resistive Plate Chambers performance with Cosmic Rays

Programs for the calibration of TOF measurement with the new pulser

Drift Chamber Monitoring

ASD-TDC joint test with MDT-CSM

Presentation transcript:

ADC Performance and Calibration of MDT Chambers Zhen YAN (闫真) Boston University USTC 15.12.2012

Outline Introduction of Monitored Drift Tube(MDT) System Naming convention Operation parameters TDC and ADC spectrum Boston University activity ADC performance Monitoring chamber ADC mean Color map of chamber ADC mean plotted as function of eta and phi Chamber ADC mean variation at time scale ADC calibration Raw tube ADC performance Normalized tube ADC performance Correction constants validation Dependence of ADC on impact parameter, distanceToReadout, temperature and momentum

Boston University Activity The BU/Harvard group led by Ahlen built the 80 MDT chambers for the Small Wheels (16 each of EIL 1-3, and EIS 1-2), and the 16 EMS1 chambers for the Big Wheels, during the period 2000 to 2004. The MDT-ASD is an octal CMOS ASIC circuit which was designed and constructed by the BU Electronics Design Facility (EDF) and Harvard. In each ASD channel, an ADC was used to measure the signal charge in a given time window (integration gate 18.5ns) following the initial threshold crossing. The signal charge is encoded into a pulse width using the dual-slope ”Wilkinson” technique with time unit 0.78 ns, the same as the TDC unit.

Plot a) is the ADC spectrum of EIL1A01 for all tubes and events in one collision run 182796 in May 2011. Plot b) shows the distribution of chamber ADC mean values for 1170 MDT chambers for run 182796. The normal range of chamber ADC mean is 125 to 145 ADC count for a 7TeV collision run.

The red cell at the top-left of below plot indicates chamber EIL4C03 has an unusually high ADC mean value during cosmic commissioning in 2009. This was found to be due to a problem with the LV power supply cable.

The rms of chamber ADCmean values was calculated by using 20 collison runs listed in tag “2011 7TeV” taken from March 2011 to May 2011. The rms is less than 1 ADC count for most chambers, demonstrating very stable for the MDT system.

Raw tube ADC perfromance

Normalized tube ADC perfromance

A constant named cor tube[N] can be used to normalize tube ADC value A constant named cor tube[N] can be used to normalize tube ADC value. The definition of cor tube[N] is cor tube[N] = ChamberADCMean/TubeADCMean[N], then the NormalizedADC = cor tube[N]*rawADC. We have used 2010 and 2011 collision data to compare normalization constants over a one year time scale, using over 270,000 tubes. Below plot shows these constants to be very stable.

Dependence of ADC on impact parameter

Dependence of ADC on distanceToReadout

Dependence of ADC on temperature

Dependence of ADC on momentum