Heinz Pernegger for First performance results from Phobos

Heinz Pernegger for First performance results from Phobos

Heinz Pernegger for First performance results from Phobos at RHIC Heinz Pernegger for the PHOBOS collaboration Vertex 2000 Heinz Pernegger for PHOBOS Collaboration ARGONNE NATIONAL LABORATORY Birger Back, Nigel George, Alan Wuosmaa BROOKHAVEN NATIONAL LABORATORY Mark Baker, Donald Barton, Mathew Ceglia, Alan Carroll, Stephen Gushue, George Heintzelman, Hobie Kraner ,Robert Pak,Louis Remsberg, Joseph Scaduto, Peter Steinberg, Andrei Sukhanov INSTITUTE OF NUCLEAR PHYSICS, KRAKOW

Wojciech Bogucki, Andrzej Budzanowski, Tomir Coghen, Bojdan Dabrowski, Marian Despet, Kazimierz Galuszka, Jan Godlewski , Jerzy Halik, Roman Holynski, W. Kita, Jerzy Kotula, Marian Lemler, Jozef Ligocki, Jerzy Michalowski, Andrzej Olszewski , Pawel Sawicki , Andrzej Straczek, Marek Stodulski, Mieczylsaw Strek, Z. Stopa, Adam Trzupek, Barbara Wosiek, Krzysztof Wozniak, Pawel Zychowski JAGELLONIAN UNIVERSITY, KRAKOW Andrzej Bialas, Wieslaw Czyz, Kacper Zalewski MASSACHUSETTS INSTITUTE OF TECHNOLOGY Wit Busza*, Patrick Decowski, Piotr Fita, J. Fitch, C. Gomes, Kristjan Gulbrandsen, P. Haridas, Conor Henderson, Jay Kane , Judith Katzy , Piotr Kulinich, Clyde Law, Johannes Muelmenstaedt, Marjory Neal, P. Patel, Heinz Pernegger, Miro Plesko, Corey Reed, Christof Roland, Gunther Roland, Dale Ross, Leslie Rosenberg, John Ryan, Pradeep Sarin, Stephen Steadman, George Stephans, Katarzyna Surowiecka, Gerrit van Nieuwenhuizen, Carla Vale, Robin Verdier, Bernard Wadsworth, Bolek Wyslouch NATIONAL CENTRAL UNIVERSITY, TAIWAN Yuan-Hann Chang, Augustine Chen, Willis Lin, JawLuen Tang UNIVERSITY OF ROCHESTER A. Hayes, Erik Johnson, Steven Manly, Robert Pak, Inkyu Park, Wojtech Skulski, Teng, Frank Wolfs

UNIVERSITY OF ILLINOIS AT CHICAGO Russell Betts, Christopher Conner, Clive Halliwell, Rudi Ganz, Dave Hofman, Richard Hollis, Burt Holzman,, Wojtek Kucewicz, Don McLeod, Rachid Nouicer, Michael Reuter UNIVERSITY OF MARYLAND Richard Baum, Richard Bindel, Jing Shea, Edmundo Garcia-Solis, Alice Mignerey Heinz Pernegger for Relativistic Heavy Ion Collider RHIC environment: Highest energy density ever produced in lab Au-Au collisions with total s= 25TeV About 4000 charged particle per central collision 12 June: 1st Collisions @ s = 56 AGeV 24 June: 1st Collisions @ s = 130 AGeV

5 Sept: end of first Au-Au physics run Heinz Pernegger for PHOBOS Detector Heinz Pernegger for What does Phobos measure ? Phobos searches for signs of Quark-Gluon Plasma at RHIC Measures multiplicity of charged particles over full solid angle Reconstruct tracks in mid-rapidity range with low Pt threshold and identifies them Measures particle ratio/spectra, particle correlation Phobos lives on analog signals of our silicon detectors Multiplicity measurement use dE/dx as multiplicity estimator Spectrometer uses dE/dx method for particle identification

Analog information used to reject background Analog signals partially used in pattern recognition Heinz Pernegger for The Multiplicity detector Vertex octagon 1 layer of large silicon pad detectors everywhere Count single hits or sum of analog signals in a detector area as measure of particle multiplicity Has to deal with high occupancy (>80%) Heinz Pernegger for The silicon spectrometer 1x1mm to 0.7x19mm

16 layer of smaller silicon pad detectors near mid rapdity Tracks and Identifies particles (dE/dx) in 2T magnetic field All silicon readout with Viking VAHDR1 chips Very high dynamic range (>100MIPs), peaking time 1.1s Our silicon detectors Heinz Pernegger for Double Metal, Single sided, AC coupled, polysilicon biased detectors produced by ERSO, Taiwan signal lines 1.2um ONO 0.2um ONO 300um 5kOhm nSi bias bus vias

p+ Implant Polysilicon Drain Resistor n+ AC coupled Pad (p-implant + metal 1 pad) polisilicon bias resistor metal 2 readout line contact hole metal 1- metal 2 Heinz Pernegger for Before installation The full silicon detector in numbers: 500 wafers, 1600 Viking VAHDR1 readout chips 9 different wafer layouts produced by Miracle/Erso,

Taiwan Assembled to 240 modules with 140 000 channels Commissioning setup (15% of full) March-July Study environment and measure first collisions Full installation for physics run on July 13 200/200 modules functional 1082/1084 chips functional = 99.8% In channels: 98.8% channels fully functional Peak Signal/Noise = 13:1 to 20:1 depending on sensor layout

Original requirements : S/N>10 and full functional RHIC beams in Phobos Integrated Luminosity Heinz Pernegger for RHIC Integrated Luminosity 65+65 GeV B-1 PR00 Start 6 Bunches Start 55 Bunches Date Physics Run

2000 Luminosity estimated using coincidence of signals in the Zero Degree Calorimeters. =10.7barn used to convert counts to luminosity.barn used to convert counts to luminosity. Run 5332 Event 35225 08/31/00 06:59:24 PHOBOS Online Event Display Heinz Pernegger for Trigger Scintillators P Octagon Multiplicity detector Spectrometer Arm N Trigger

Scintillators N Not to scale Not all sub-detectors shown Au-Au Beam Momentum = 65.12 GeV/c Spectrometer Arm P Heinz Pernegger for Performance of the Multiplicity Detector Opening to Spec phi Opening to Vtx Opening to Spec

Opening to Vtx Z (beam) One high multiplicity event in the octagon occupancy up to 80% Color encodes pulse height Heinz Pernegger for Dealing with high occupancy Base line before and after correction Problems associated with high occupancy: Few channels left to

determine commonmode-noise correction Event-by-event baseline shift dependent on input signal Signal dependence on occupancy Heinz Pernegger for Problems associated with high occupancy: Gain dependence on occupancy can distort the multiplicity

measurement Multiplicity measured = dE(meas)/ Gain loss at highest occupancy: 20% NO baseline corr. Heinz Pernegger for Multiplicity sensor uniformity 3.6 x 8.4 cm Smp= 93 keV +/- 3%

8.3 cm x 6.5 cm Smp= 85keV +/- 1% No substantial signal variation due to different layout (double metal line routing/ varying pad size) Heinz Pernegger for Performance of tracking detectors Hits in SPEC Tracks in SPEC Hits in VTX 130 AGeV 130 AGeV

56 AGeV Signal uniformity in Spec/Vertex T1 Smp= 90 T3 Smp= 85 T2 Smp=85 T4 Smp=85 Heinz Pernegger for T5 Smp=85 Inner Vtx Smp=87barn used to convert counts to luminosity. Outer Vtx Smp=85

Signal distrbutions for different layouts: All signal distribution after calibration (20% effect!) Small pads (type 1 & 2 , 1mm2) Larger pads (type 3,4,5 10 mm2) strips (vertex : 0.4x20 mm2) Very uniform in shape and Heinz Pernegger for Uniformity within sensors Relative signal variation +/- 2% 1 x 1 mm2

0.4 x 6 mm2 0.7barn used to convert counts to luminosity. x 7barn used to convert counts to luminosity..5 mm2 0.7barn used to convert counts to luminosity. x 15 mm2 0.7barn used to convert counts to luminosity. x 19 mm2 0.3 x 23 mm2 0.3 x 46 mm2 Typical variation <+/-1% within sensor over large range of pad size and readout line length Pad row (along readout lines accros sensor)

Heinz Pernegger for Signal peak [e-] Signal/Noise vs sensor layout Closest to beam =24000e- Noise [e-] Large pads Longs readout lines (high capacitance) Chip dominated base offset (ENC = 900 e-+5e-/pF @ 1.1s) Heinz Pernegger for

Focus on Si signal simulation Critical test of detector understanding Both distributions contain the same number of central events Points are for VTX data No correction for detector thickness Histogram is for simulated VTX signals GEANT Response from testbeam Electronics noise Shulek correction

(CR setup) Optimizing our signal simulation Heinz Pernegger for Measured dE/dx in silicon in a testbeam and verified simulation: Measure dE/dx and distribution shape, test PID Cover large momentum range (130MeV 8GeV), measure &K Data Geant

Heinz Pernegger for Measuring charged multiplicity VTX Tracklets Two hit combinations that point to the vertex d = 2 1 Good tracklets have d<.1 SPEC Tracklets Two hit combinations that point to the vertex dR = (d2 + d2) Good tracklets have dR<.015 Results :PHOBOS Measurement of Charged

Heinz Pernegger for Particle Multiplicitynear Mid-rapidity dNch/d (||<1) at sNN= 56 GeV: 4081230 dNch/d (||<1) at sNN=130 GeV: 5551235 hep-ex/0007barn used to convert counts to luminosity.036 Accepted for publication in PRL Oct 02 2000 Summary Heinz Pernegger for The good performance allowed a very fast physics analysis Submitted within 5 week after first recorded collision The first publication of all RHIC experiment

Phobos successfully completed its first physics run: 3.5 million Au-Au collisions on tape (collected mainly in 2 weeks) Phobos silicon detector operated flawlessly 98 % off al channels fully functional Not a single module failure during installation and all running Operates at S/N >15 Phobos is well equipped for future analysis Very uniform and well calibrated signal response Can operate at high occupancies Detector showed to be reliable and stable Heinz Pernegger for Next transparencies are backup + additions

Heinz Pernegger for Readout & Calibration system Readout with Viking VAHDR1 chips Very high dynamic range (>100MIPs), peaking time 1.1s Phobos lives on analog signals Multiplicity measurement use dE/dx as multiplicity estimator Spectrometer uses dE/dx method for particle identification Analog information used to reject background Analog signals partially used in pattern recognition Dedicated calibration system Measures full gain curve for each channel (1-2/day)

Verifies functionality and normalizes gain of different Heinz Pernegger for Extract from correlation of Primaries in 1 < < 1 Measured number of tracklets Number of Tracklets Derivation of dN/d 5

SPEC dN/d Measuring dN/d with tracklets Heinz Pernegger for Number of reconstructed tracklets is proportional to dN/d | <1 dN primary dNtracklets Z d d 1 To reconstruct tracklets

Reconstruct vertex Define tracklets based on the vertex and hits in the front planes of SPEC and VTX Redundancy essentially eliminates feeddown, secondaries, random noise hits To determine Run the same algorithm through the MC Folds in detector response and acceptance Heinz Pernegger for Measuring Vertex z x Pointing accuracy describes how extrapolated tracks deviate from calculated vertex.

Compares well with HIJING simulation Spectrometer sits very close to vertex High resolution tracking in 6 planes gives excellent vertex resolution

Recently Viewed Presentations

  • System Development, Tools, Techniques and Methods

    System Development, Tools, Techniques and Methods

    SYSTEM DEVELOPMENT, TOOLS, TECHNIQUES AND METHODS ... The module discusses how to use structured techniques and a method such as SSADM to analyse, design and implement a system that utilises a database. ... A process model for the proposed system...
  • No Time to Countdown: Backing Off in Frequency Domain

    No Time to Countdown: Backing Off in Frequency Domain

    Frequency backoff = 1 . OFDM symbol = 4 . micro. sec. 4 microsecond overhead dramatic performance enhancement relative to 100 microsecond overhead . ... Multiple Collision Domains Does Back2F work with real-world scatteredAPs? Multiple Collision Domains
  • Encefalites virais - definições

    Encefalites virais - definições

    Encefalite: inflamação do encéfalo Mais frequentes no primeiro ano de vida Frequência tende a diminuir com a idade - exceto arboviroses e outras com nichos específicos.
  • Cell Communication - rowan.k12.ky.us

    Cell Communication - rowan.k12.ky.us

    Cell Communication (Chpt. 11) Chapter 11 Overview of Cell Signaling Signaling evolved early in history of life Communicating cells may be close together or far apart 3 stages of signaling are: reception, transduction, and response Communicating cells Signal Reception and...
  • Anthem - Mr. Bulgrien&#x27;s Class

    Anthem - Mr. Bulgrien's Class

    Appearances "We could smarten up a bit and then go-" (p. 170) Ralph and Piggy want to clean up and then go talk to Jack and his hunters. They hope that Jack and the hunters will remember what they're supposed...
  • Jewish Justices of The United States Supreme Court

    Jewish Justices of The United States Supreme Court

    Justice Cardozo suffered a heart attack in 1937 and a stoke in 1938 and subsequently died, having served only six years on the Court. He was only 68 years old. He was succeeded on the Court by Felix Frankfurter. The...
  • Advanced Pointers

    Advanced Pointers

    Address stores pointer to a variable is also a data in memory and has an address. The address of the pointer can be stored in another pointer . Example:int n = 3;int ∗pn = &n; /∗ pointer to n ∗/int...
  • Introduction to Primary Care Networks DR JUDY LINDSAY

    Introduction to Primary Care Networks DR JUDY LINDSAY

    Dr Nicola decker. What is our vision? ... Clinical Pharmacist Fiona Bhandari. First Contact Practitioner MSK . Proactive Care Nurse Maria Scott, supported by Gemma Hart. Community Connector Tracey Powell. Closer working relationship and improved communication with Hospital Consultants.