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

Slides:

Advertisements

Similar presentations

J/  measurement with the PHENIX muon arms in d-Au interactions at √ s NN = 200 GeV David Silvermyr, LANL APS April Meeting Philadelphia, April 5-8, 2003.

Advertisements

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.

PHENIX Vertex Tracker Atsushi Taketani for PHENIX collaboration RIKEN Nishina Center RIKEN Brookhaven Research Center 1.Over view of Vertex detector 2.Physics.

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.

The performance of LHCf calorimeter was tested at CERN SPS in For electron of GeV, the energy resolution is < 5% and the position resolution.

South Arm FEE Performance Prior to Au run, all FEMs installed and working. Currently, 157 of 168 FEMs read out useful data. = 93.5% operational FEM losses:

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

Sourav Tarafdar Banaras Hindu University For the PHENIX Collaboration Hard Probes 2012 Measurement of electrons from Heavy Quarks at PHENIX.

APS Meeting April 5-8, 2003 at Philadelphia Chunhui Luo 1 Chunhui Luo Inclusive J/ψ Production at DØ.

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

Simulation issue Y. Akiba. Main goals stated in LOI Measurement of charm and beauty using DCA in barrel –c  e + X –D  K , K , etc –b  e + X –B 

Status of W analysis in PHENIX Central Arm Kensuke Okada (RBRC) For the PHENIX collaboration RHIC Spin Collaboration meeting November 21, /21/20091K.Okada.

The Progress of PHENIX RPC Production in China Shouyang HU Xiaomei LI Shouyang HU Xiaomei LI Science and Technology on Nuclear Data Laboratory China Institute.

J/  measurement in d-Au interactions at s NN = 200 GeV David Silvermyr, LANL Physics Motivation - J/  production, gluon shadowing. Run-3 d-Au (2003)

Andrew Glenn 4/21/02 Commissioning and Performance of the. Muon Identifier Andrew Glenn (University of Tennessee), for the PHENIX collaboration April APS.

Run11 MuTrig-FEE Summary RIKEN/RBRC Itaru Nakagawa 1.

Performance of PHENIX High Momentum Muon Trigger 1.

Observation of W decay in 500GeV p+p collisions at RHIC Kensuke Okada for the PHENIX collaboration Lake Louise Winter Institute February 20, /20/20101.

Spiros Margetis (Kent State Univ.) for the STAR Collaboration STAR Heavy Flavor Tracker Bari, Italy 2014.

PANIC05 M. Liu1 Probing the Gluon Polarization with A LL of J/  at RHIC Ming X. Liu Los Alamos National Lab (PHENIX Collaboration)

Takao Sakaguchi, BNL Run-11 PHENIX Run Coordinator PHENIX Run-11 Report Sakaguchi, RHIC retreat 1 RHIC retreat version.

The PHENIX Forward Silicon Vertex Tracker Eric J. Mannel IEEE NSS/MIC October 29, 2013.

Swadhin Taneja Stony Brook University On behalf of Vertex detector team at PHENIX Collaboration 112/2/2015S. Taneja -- DNP Conference, Santa Fe Nov 1-6.

PHENIX Run8 Summary d+Au was fantastic! - x30 over Run3 baseline for future A+A new level of precision on intrinsic Cold Nuclear Matter physics now p+p.

M. Brooks, 29-Jan-02 P-25 Review South Arm: Hardware and Analysis Status Brief overview of muon arm Physics goals-->implied performance requirements Status.

Bernhard Schmidt DESY - HH PRC open session, October 30, 2002 HERA-B.

Time Meeting 3/10/2015 PHENIX Run-15 Status Douglas Fields PHENIX Run-15 Run Coordinator University of New Mexico.

Measurement of J/  -> e + e - and  C -> J/  +   in dAu collisions at PHENIX/RHIC A. Lebedev, ISU 1 Fall 2003 DNP Meeting Alexandre Lebedev, Iowa State.

Performance of the PHENIX Muon Identifier Introduction Calibration with cosmic rays Performance in Au+Au collisions Summary Hiroki Sato, Kyoto University.

Performance of PHENIX High Momentum Muon Trigger.

The experimental setup of Test Beam HE EE ES BEAM  A slice of the CMS calorimter was tested during summer of 2007 at the H2 test beam area at CERN with.

Recent Open Heavy Flavor Results from ATLAS and CMS Experiment at LHC

Muon Tracker Responsibilities This Year South arm commissioning through this year’s run Analysis Software oversight and development North Arm station 2.

Non-photonic electron production in p+p collisions at √s=200 GeV Xiaozhi Bai for the STAR collaboration Central China Normal University University of Illinois.

 production in p-A and In-In collisions Motivation Apparatus Collected data Results for     Ongoing work for    KK Alessandro De Falco – University.

PERFORMANCE OF THE PHENIX SOUTH MUON ARM Kenneth F. Read Oak Ridge National Lab & University of Tennessee for the PHENIX Collaboration Quark Matter 2002.

1/27/2016 R.Seidl: status of simulation1 W muon analysis in PHENIX Status of the background understanding, signal, smearing and asymmetries R.Seidl (RBRC)

5-9 June 2006Erika Garutti - CALOR CALICE scintillator HCAL commissioning experience and test beam program Erika Garutti On behalf of the CALICE.

STAR Analysis Meeting, BNL – oct 2002 Alexandre A. P. Suaide Wayne State University Slide 1 EMC update Status of EMC analysis –Calibration –Transverse.

ScECAL Beam FNAL Short summary & Introduction to analysis S. Uozumi Nov ScECAL meeting.

 Production and Suppression in Heavy Ion Collisions at STAR Anthony Kesich University of California, Davis STAR Collaboration February 5, 2013.

JPS/DNPY. Akiba Single Electron Spectra from Au+Au collisions at RHIC Y. Akiba (KEK) for PHENIX Collaboration.

Feasibility study of Heavy Flavor tagging with charged kaons in Au-Au Collisions at √s=200 GeV triggered by High Transverse Momentum Electrons. E.Kistenev,

Multi-strange Baryon Correlations in p+p and d+Au Collisions at √s NN = 200 GeV Betty Bezverkhny Yale University For the Collaboration Hot Quarks ’04,

Study of J/  ->e + e - in d-Au Collision with Electron Triggers in PHENIX W. Xie (UC. Riverside) PHENIX Collaboration April APS in 2003.

1 Guannan Xie Nuclear Modification Factor of D 0 Mesons in Au+Au Collisions at √s NN = 200 GeV Lawrence Berkeley National Laboratory University of Science.

Performance of PHENIX High Momentum Muon Trigger.

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

Performance and Early Results from the Muon Tracking System of Rusty Towell of Abilene Christian University for the PHENIX collaboration First Joint Meeting.

Charged and Neutral Kaon correlations in Au-Au Collisions at sqrt(s_NN) = 200 GeV using the solenoidal tracker at RHIC (STAR) Selemon Bekele The Ohio State.

Overview of PHENIX Muon Tracker Data Analysis PHENIX Muon Tracker Muon Tracker Software Muon Tracker Database Muon Event Display Performance Muon Reconstruction.

David Silvermyr Lund University for the PHENIX Collaboration Early global event results using the PHENIX Pad Chambers at RHIC.

DØ Beauty Physics in Run II Rick Jesik Imperial College BEACH 2002 V International Conference on Hyperons, Charm and Beauty Hadrons Vancouver, BC, June.

A. Zoccoli - PRC open session 16-May-2002 HERA-B A. Zoccoli Università and INFN - Bologna PRC open session 16 th May 2002.

MuTrig-FEE Install Status RIKEN/RBRC Itaru Nakagawa 1.

 Main focus ◦ Instrumentation talk on FVTX ◦ FVTX commissioning and analysis update in Run12/13 ◦ New functionality  Relative Lumi monitor, reaction.

Ming X. Liu Moriond04 3/28-4/ Open Charm and Charmonium Production at RHIC Ming X. Liu Los Alamos National Laboratory (PHENIX Collaboration) - p+p.

Low Mass Vector Mesons Nuclear Modification Factors in d+Au 200GeV Lei Guo Los Alamos National Laboratory PHENIX Collaboration.

Muon Arm Physics Program Past, Present + Future Patrick L. McGaughey Los Alamos National Laboratory Santa Fe June 17, 2003.

Jamaica 11 Jan.8, 2009 Muon Trigger Upgrade at PHENIX RIKEN/RBRC Itaru Nakagawa RIKEN/RBRC Itaru Nakagawa.

Upgrade with Silicon Vertex Tracker Rachid Nouicer Brookhaven National Laboratory (BNL) For the PHENIX Collaboration Stripixel VTX Review October 1, 2008.

Study of polarized sea quark distributions in polarized pp collisions at sqrt(s)=500GeV with PHENIX Oct. 10, 2008 Tsutomu Mibe (KEK) for the PHENIX collaboration.

PHENIX J/  Measurements at  s = 200A GeV Wei Xie UC. RiverSide For PHENIX Collaboration.

Quark Matter 2002, July 18-24, Nantes, France Dimuon Production from Au-Au Collisions at Ming Xiong Liu Los Alamos National Laboratory (for the PHENIX.

First data from TOTEM experiment at LHC

CMS Preshower: Startup procedures: Reconstruction & calibration

STAR Detector Event selection and triggers Corrections to data

High-pT Identified Charged Hadrons in √sNN = 200 GeV Au+Au Collisions

Contents First section: pion and proton misidentification probabilities as Loose or Tight Muons. Measurements using Jet-triggered data (from run).

Presentation transcript:

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

PHENIX Experiment:Run-2 Central Arms –Tracking,EMCal,PID –|  | < 0.35 Muon Arms –Tracking+MuID –1.2 < |  | < 2.4 –  =2 

Muon Tracking Chamber 0.5 cm Cathode Strip Chamber

Muon Front-End Electronic Low noise high speed FEM ADC x64 AMU 10 MHz RHIC Beam Clock GL-1 trigger Data 11-bit,200MHz CPA

Detector Commissioning Cathode Strip Charge chamber resolution ~100um Low noise rms~ 2 ADCs Good Timing Electronics HV Gas CF4:CO2:Ar =0.2:0.3:0.5 Timing in Detector RMS

Data QA: calib. & online monitor 4 Samples’ relative timing –(1,6,7,8) beam-crossings DAQ Zero-Suppression (<5%) –(peak - pedestal)>3*rms Stable Pedestals and Gains –daily calibration Signal Dynamic range Pedestals from calibration data

Chamber Alignment Monitoring A good track resolution: - low electronics noise - stable gain - geometry and alignment

A. Hoover October 18,2001 Maui APS Muon Tracker Multiplicity vs. Beam-beam counter total charge (centrality) Au-Au data Geometry and Global Alignment: projection errors at station-2 Detector Performance WORK IN PROGRESS! Chamber response Alignment p-p field-off

Simulated dimuon mass Spectrum for expected Run-II statistics (signals only) Vertices for single-muons are peaked at locations farther from South muon arm as expected for muons from pion and Kaon decays Dimuon Mass (GeV) Log scale Linear scale J/  Upsilon (~1 or 2?)  ’ (~10) Drell-Yan (~45; M > 2.5 GeV) Expected J/  efficiency in muon tracker: ~ 50% (FEE ~ 60%, HV ~ 90%) Simulated Expectations from MC Simulations Pion decays far from muon arm Pion decays far from muon arm charm decays charm decays

Plots from raw data Single muons –Dimuon-triggered samples –Good muon candidates –~2GeV Ptot Threshold Z-VTX Ptot Pt

Plots from raw data Dimuon-mass red = +- blue= ++, good muons 2. best muons 3. no-BBC vtx < ZVTX < Dimuon Mass (GeV)

Summary and Outlook First collision events were observed on 07/18/2001 Successfully installed and commissioned muon detector in the PHENIX Collected significant a mount of data from both Au-Au and p-p runs Lots of progress in understanding detector response and geometry Expect physics results very soon, stay tuned!

Simulated p-p field-off Projection of  ID to station-3 Projection from station-2 to station-1 Projection from station- 3 to station-2 WORK IN PROGRESS! (cm) (cm) -2 2 (cm) -5-5 (cm)