1 Jim Thomas - LBL A Quick Look at Some Systematic Errors in the TPC By Jim Thomas.

Slides:

Advertisements

Similar presentations

The STAR Heavy Flavor Tracker Flemming Videbæk For the STAR collaboration Brookhaven National Lab 1.

Advertisements

Intermediate Silicon Tracker For STAR HFT Upgrade Yaping Wang 1, 3, Gerrit J. van Nieuwenhuizen 2, Zhenyu Ye 1, 3 for the STAR Collaboration 1 University.

Proposal for a new design of LumiCal R. Ingbir, P. Ruzicka, V. Vrba October 07 Malá Skála.

From Quark to Jet: A Beautiful Journey Lecture 1 1 iCSC2014, Tyler Dorland, DESY From Quark to Jet: A Beautiful Journey Lecture 1 Beauty Physics, Tracking,

1 Reconstruction of Non-Prompt Tracks Using a Standalone Barrel Tracking Algorithm.

TPC status Marian Ivanov. Outlook TPC performance ExB correction Alignment Nonlinearities and edge effects Drift velocity calibration.

Measurement of charmonia at mid-rapidity at RHIC-PHENIX  c  J/   e + e -  in p+p collisions at √s=200GeV Susumu Oda CNS, University of Tokyo For.

June 6 th, 2011 N. Cartiglia 1 “Measurement of the pp inelastic cross section using pile-up events with the CMS detector” How to use pile-up.

MARS flux simulations - update Sergei Striganov Fermilab June 3, 2009.

Track Timing at e + e - Linear Collider with the Silicon Drift Detector Main Tracker R. Bellwied, D. Cinabro, V. L. Rykov Wayne State University Detroit,

Topological D-meson Reconstruction with STAR Using the Silicon Vertex Tracker (SVT) Sarah LaPointe Wayne State University SVT review, BNL, July 7 th /8.

29 Mar 2007Tracking - Paul Dauncey1 Tracking/Alignment Status Paul Dauncey, Michele Faucci Giannelli, Mike Green, Anne-Marie Magnan, George Mavromanolakis,

The Physics Potential of the PHENIX VTX and FVTX Detectors Eric J. Mannel WWND 13-Apr-2012.

STAR Collaboration Meeting, Nantes, July2002 SVT Analysis/Status Update Jun Takahashi – University of Sao Paulo.

FTPC calibration status Joern Putschke for the STAR FTPC group STAR Analysis Meeting 2002 October 22-24, 2002.

LBNE R&D Briefing May 12, 2014 LBNE R&D Briefing May 12, 2014 LArIAT and LBNE Jim Stewart LArIAT EPAG Chair BNL LBNE LARIAT-EPAG J. Stewart BNL T. Junk.

JT 1 Pointing with the IST Detectors at the vertex in p-p and Au-Au Collisions Jim Thomas Lawrence Berkeley National Laboratory July 12 th, 2007.

BEACH Conference 2006 Leah Welty Indiana University BEACH /7/06.

Jim Thomas - LBL 1 HFT Performance & Simulation Studies Experience Gained by Simulating One Track at a Time Jim Thomas Lawrence Berkeley National Laboratory.

1 Jim Thomas - LBL STAR Inner Tracking Upgrades with an emphasis on the Heavy Flavor Tracker presented by Jim Thomas Lawrence Berkeley Laboratory 11 /

JT: 1 The Berkeley Lab STAR TPC Distortions in the Transverse Plane: An Update Jim Thomas.

Charmed Meson Measurement using Silicon Detectors (SVT+SSD) in Au+Au Collisions at 200GeV in STAR Experiment at RHIC Jaiby Joseph Kent State University.

1 Jim Thomas - LBL The Mechanical Integration Challenge for New Tracking Detectors in STAR Jim Thomas 07/10/2006.

1.Check Laser track of B=0 run and exclude some tracks in order to get precise GGV eff, which in turn is used when extract T1, T2 value by pos-B and neg-B.

Warm ups What is the estimated perimeter of the shape? 10 cm 5cm 10 cm C = π d 10 For both blue parts together!! They both form one whole circle!!

1 Alignment Infrastructure and Experience in STAR LBL 2008/11/20 Spiros Margetis Kent State University.

1 Jim Thomas - LBL The STAR Detector at RHIC. 2 Jim Thomas - LBL The STAR Heavy Flavor Tracker An Introduction and Brief Review of the Technical Design.

STAR Sti, main features V. Perevoztchikov Brookhaven National Laboratory,USA.

STAR Collaboration Meeting Rene Bellwied – Wayne State University July 2004 SVT Calibration and STI tracking status An update of work since the SVT review.

1 Jim Thomas - LBL HFT Issues that may Bear on the Fate of the SSD & SVT presented by Jim Thomas 07/07/2006.

1 Request for MuDst revision Y.Fisyak, 03/05/08 S&C meeting.

LASER CALIBRATION SYSTEM for STAR TPC Alexei Lebedev (BNL) for STAR collaboration  Design and description  Performance  Goals and results  Future developments.

7 May 2009Paul Dauncey1 Tracker alignment issues Paul Dauncey.

TPC ExB distortion at LHC-ALICE experiment Yasuto Hori for the ALICE-TPC collaboration Center for Nuclear Study, University of Tokyo 1.

Integrated Tracker (progress, status, plans) Y. Fisyak.

A TPC for ILC CEA/Irfu, Apero, D S Bhattacharya, 19th June Deb Sankar Bhattacharya D.Attie, P.Colas, S. Ganjour,

Oct 6, 2008Amaresh Datta (UMass) 1 Double-Longitudinal Spin Asymmetry in Non-identified Charged Hadron Production at pp Collision at √s = 62.4 GeV at Amaresh.

STAR TU, simulation status N. Smirnov Physics Department, Yale University, STAR Collaboration Meeting, MIT, July, 2006.

1 Performance of the STAR Heavy Flavor Tracker in Measuring Charged B Meson through charged B  J/Ψ + X Decay.

Wenxin Wang 105/04/2013. L: 4.7m  : 3.6m Design for an ILD TPC in progress: Each endplate: 80 modules with 8000 pads Spatial Resolution (in a B=3.5T.

2007 Run Update for STAR Jeff Landgraf For the STAR collaboration.

8 April 2000Karel Safarik: Tracking in ALICE1 Tracking in ALICE  OUTLOOK: Requirements History Tracking methods Track finding Tracking efficiency Momentum.

Jonathan BouchetBerkeley School on Collective Dynamics 1 Performance of the Silicon Strip Detector of the STAR Experiment Jonathan Bouchet Subatech STAR.

This tutorial will talk you through a very basic workbench queueing simulation. The queueing system modelled is of customers entering an infinite capacity.

(Some thoughts/reminders on) Calibration/alignment scenarios for ILD/ILC Jan Timmermans – NIKHEF Amsterdam 07 Sep 2014ILD meeting Oshu1.

Orbit related issues of the spin tune control at RHIC V.Ptitsyn, M.Bai, W.MacKay, T.Roser.

FTPC calibration status & plans for Y03 Joern Putschke for the STAR FTPC group STAR Calibration Meeting 2002 November 7, 2002.

Bill Christie For the STAR Collaboration January 5, Outline Detector configuration for Run 16 Data set Goals Desired luminosity profile for Run.

Development of the parallel TPC tracking Marian Ivanov CERN.

1 Performance of a Magnetised Scintillating Detector for a Neutrino Factory Scoping Study Meeting U.C. Irvine Monday 21 st August 2006 M. Ellis & A. Bross.

STAR SVT Self Alignment V. Perevoztchikov Brookhaven National Laboratory,USA.

Sti primary track puzzle Yuri Fisyak. Charge dependent relative difference in primary track transverse momentum between Sti (.dev) and TpT On STAR collaboration.

Object-Oriented Track Reconstruction in the PHENIX Detector at RHIC Outline The PHENIX Detector Tracking in PHENIX Overview Algorithms Object-Oriented.

Year 3 Reconstruction and Calibration Status David Hardtke LBNL 1.What’s new? 2.Status of Calibrations 3.Why we need ITTF.

Pile-up vertex finding in heavy ion collisions

Michele Faucci Giannelli

Technical Specifications

Software Overview S. Margetis Kent State University HFT CD0 Review.

Validating Magnets Using Beam

TPC sector alignment Marian Ivanov.

HPS Collaboration meeting, JLAB, Nov 16, 2016

STAR Geometry and Detectors

SCU Next Phase Meeting July 8, 2014.

Silicon tracker and sensor R&D for sPHENIX

Alignment of the PHENIX Silicon Vertex Tracker (VTX) in 2014

Quarkonium production in p-p and A-A collisions: ALICE status report

STAR Detector Event selection and triggers Corrections to data

status of experiment trigger conditon (empty)

Quarkonium production in p-p and A-A collisions: ALICE status report

MEIC Alternative Design Part III

Presentation transcript:

1 Jim Thomas - LBL A Quick Look at Some Systematic Errors in the TPC By Jim Thomas

2 Jim Thomas - LBL Shorted Ring Distortion Rings 169 and 170 are shorted together This is a real distortion Two years ago, it wandered around hour by hour … depending on the humidity and temperature, but Alexei has fixed that problem :-) It also depended on eta, pt, and Z, but I don’t want to scare you …

3 Jim Thomas - LBL The effect on a track Track in blue Distorted hits in black Refit in green Note the projected DCA error at zero is going to be large Distortion on first few pad rows is few mm

4 Jim Thomas - LBL DCA error due to shorted ring ~1.4 cm Once again, this is real and we have dealt with it for 2 or 3 years This is currently our biggest systematic distortion in the TPC It won’t be … in the future.

5 Jim Thomas - LBL Space Charge under RHIC II Conditions ZDC rate = 80 kHz

6 Jim Thomas - LBL Space Charge at RHIC II Track in blue Distorted hits in black Refit in green Distortion on first few pad rows will be > 1 cm (moves from one pad to another)

7 Jim Thomas - LBL Space charge at RHIC II as projected to Vertex Note CM scale on Horizontal axis. Radius of this circle is 4.6 cm Inside TPC the shift is ~ 1cm on first pad rows At 14 cm radius, it will ‘only’ be 3.8 cm shift

8 Jim Thomas - LBL The power of an intermediate tracker Add a good SSD (or IST) hit If you can make the correct hit association (i.e. with high efficiency) then the reconstruction can be recovered

9 Jim Thomas - LBL With the SSD (or IST) at work … DCA is 3 mm at the vertex (without other space charge corrections) Very important for global tracks and any sort of topological reconstruction technique The SSD may be very useful as a stand alone detector in high luminosity running Still need the HFT for Charm and Beauty :-)

10 Jim Thomas - LBL Control of systematic errors to 2% Under good conditions, we think we can do the space charge corrections and control these systematic error to about 2% Note that space charge wanders second by second –Ions take about ½ second to drift to cathode –Varies as luminosity wanders Beam tune Alignment Magnets wiggle at 10 Hz Even the moon So if we can calculate the deflection at the IST (or SSD) to within 2% then we can reduce the systematic error to a random error –About 750 microns sigma This sort of thing makes charge sign determination at high pt very difficult. Look at Bedanga’s p-bar p paper with pride.

11 Jim Thomas - LBL Conclusion Space charge will be our largest systematic error in the era of high luminosity running at RHIC –Approximately 3x what we have dealt with in the past We think we can control these distortions to ~2% in magnitude –This is a work in progress –There is always a surprise, and new ideas needed, with each year’s run After correction, systematic errors become (smaller) random errors The systematic errors due to space charge acting on the SSD (or IST) are approximately equal to the pointing error to that layer. In other words, multiply the previously calculated pointing errors by  2 to finalize the design of the detectors