D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August-2005 1 The Cornell/Purdue TPC Information available at the web site:

Slides:

Advertisements

Similar presentations

GEM Chambers at BNL The detector from CERN, can be configured with up to 4 GEMs The detector for pad readout and drift studies, 2 GEM maximum.

Advertisements

Cosmic Ray Test of GEM- MPI/TPC in Magnetic Field Hiroshima University Kuroiwa CDC Group Mar

D. Peterson, “The Cornell/Purdue TPC”, ECFA, Vienna, 15-November The Cornell/Purdue TPC * this presentation: ECFA 2005 Vienna 24-November-2005 *

Electronics for large LAr TPC’s F. Pietropaolo (ICARUS Collaboration) CRYODET Workshop LNGS, March 2006.

D. Peterson, “Measurements of GEM electron and ion transmission…”, Valencia LC Workshop, Measurements of GEM electron and ion transmission.

Amsterdam, April 2,2003P. Colas - Micromegas TPC1 Micromegas TPC: New Results and Prospects New tests in magnetic fieldNew tests in magnetic field FeedbackFeedback.

Chicago, January 8, 2002P. Colas - micromegas TPC1 A micromegas TPC prototype in a magnetic field Principle and advantages of a micromegas TPCPrinciple.

E-field calculations for the TPC/HBD N. Smirnov Upgrade Working Group Meeting 05/13/03, BNL.

TPC R&D in Canada Dean Karlen / University of Victoria & TRIUMF Canadian LC-TPC Group:  Carleton University: Robert Carnegie, Madhu Dixit, Hans Mes, Kirsten.

D. Peterson, “Tracking Detector R&D at Cornell University and Purdue University” LC-TPC-LBL 18-Oct Tracking Detector R&D at Cornell University and.

D. Peterson, “Studies with the Cornell/Purdue Prototype TPC”, Vancouver LC Workshop, Studies with the Cornell/Purdue Prototype TPC Information.

D. Peterson, “The Cornell/Purdue TPC”, LCWS05, Stanford, 21-March The Cornell/Purdue TPC Information available at the web site:

Miyamoto/Shipsey SC LC Retreat 6/27-30/02 Recent activities on Micropatterned Gas Detectors at Purdue Jun Miyamoto and Ian Shipsey Presented for the Santa.

D. Peterson, Cornell University, “Tracking Detector R&D at Cornell University and Purdue University” ALCPG Arlington 09-Jan-2003 Tracking Detector R&D.

UPDATE ON GEM/DHCAL DEVELOPMENT AT UTA Andy White U.Texas at Arlington (for J.Yu, J.Li, M.Sosebee, S.Habib, V.Kaushik) 9/15/03.

D. Peterson, “Status of the Cornell/Purdue Program” TPC R&D Mini Workshop, Orsay 12-January Status of the Cornell/Purdue Program: first events with.

J. Inman, “Studies with a TPC … measure ion feedback”, REU presentation, 08-Aug of 20 Studies with a TPC and development of a procedure to measure.

D. Peterson, “Development of a TPC for the ILC”, NSF Site Visit, 18-April of 24 Development of a TPC for the ILC Dan Peterson L. Fields R. S. Galik.

Edda Gschwendtner1 RF test of a small TPG detector prototype F. Ambrosino,C. D’Addio, F. Caspers, U. Gastaldi, E. Gschwendtner, E. Radicioni, G. Saracino.

D. Peterson, “ILC Detector Work”, Cornell Group Meeting, 4-October ILC Detector Work This project is supported by the US National Science Foundation.

D. Peterson, “Studies of a Bulk Micromegas using the Cornell/Purdue TPC”, LCWS07, DESY, Studies of a Bulk Micromegas using the Cornell/Purdue.

RF test of the GEM detector prototipe Detector description RF test area (LINAC3) detector working conditions RF field measurement Detector measurements.

Position sensing in a GEM from charge dispersion on a resistive anode Bob Carnegie, Madhu Dixit, Steve Kennedy, Jean-Pierre Martin, Hans Mes, Ernie Neuheimer,

D. Peterson “TPC studies using GEM and Micromegas readouts, Ar-CF 4 -isobutane gas, in a magnetic field” 1 TPC studies using GEM and Micromegas readouts,

July 2003American Linear Collider Workshop Cornell U. Development of GEM-based Digital Hadron Calorimetry Andy White U.Texas at Arlington (for J.Yu, J.Li,

Linear Collider TPC R&D in Canada Madhu Dixit Carleton University.

D. Peterson, Cornell Univ., “Round table” 23-Jan-2003 Cornell Linear Collider Detector Research Cornell Interests: The Cornell group proposes to contribute.

D. Peterson, “Tracking Detector R&D at Cornell University and Purdue University” ALCPG SLAC 07-Jan Tracking Detector R&D at Cornell University and.

SLAC 7-10 Jan. 2004M. Ronan - Micromegas TPC1 Micromegas TPC Magnetic field cosmic ray tests Review of previous Micromegas studies Review of previous Micromegas.

Carleton University A. Bellerive, K. Boudjemline, R. Carnegie, A. Kochermin, J. Miyamoto, E. Neuheimer, E. Rollin & K. Sachs University of Montreal J.-P.

Chamber parameters that we can modify and that affect the rising time Number of ionisation clusters produced in the drift gap: Poisson Distribution Probability.

IHEP, Bejing 9th ACFA ILC Physics and Detector Workshop & ILC GDE Meeting The preliminary results of MPGD-based TPC performance at KEK beam.

Linear Collider TPC R&D in Canada Bob Carnegie, Madhu Dixit, Dean Karlen, Steve Kennedy, Jean-Pierre Martin, Hans Mes, Ernie Neuheimer, Alasdair Rankin,

Update on the HBD Craig Woody BNL DC Meeting June 8, 2005.

Snowmass, August, 2005P. Colas - Micromegas TPC beam tests1 A.M. Bacala, A. Bellerive, K. Boudjemline, P. Colas, M. Dixit, K. Fujii, A. Giganon, I. Giomataris,

Stanford, Mar 21, 2005P. Colas - Micromegas TPC1 Results from a Micromegas TPC Cosmic Ray Test Berkeley-Orsay-Saclay Progress Report Reminder: the Berkeley-Orsay-

Orsay, January 12, 2005P. Colas - Resistive anode Micromegas1 Dan Burke 1, P. Colas 2, M. Dixit 1, I. Giomataris 2, V. Lepeltier 3, A. Rankin 1, K. Sachs.

TPC R&D status in Japan T. Isobe, H. Hamagaki, K. Ozawa, and M. Inuzuka Center for Nuclear Study, University of Tokyo Contents 1.Development of a prototype.

EPS-HEP 2015, Vienna. 1 Test of MPGD modules with a large prototype Time Projection Chamber Deb Sankar Bhattacharya On behalf of.

Micromegas TPC Beam Test Result H.Kuroiwa (Hiroshima Univ.) Collaboration with Saclay, Orsay, Carlton, MPI, DESY, MSU, KEK, Tsukuba U, TUAT, Kogakuin U,

June 22, 2009 P. Colas - Analysis meeting 1 D. Attié, P. Colas, M. Dixit, Yun-Ha Shin (Carleton and Saclay) Analysis of Micromegas Large Prototype data.

LC TPC R&D Results May Selected LC TPC R&D Results for the DESY RPC Meeting 2003 May 07 The LC TPC R&D Groups of the PRC R&D-01/03 Proposal Carleton,

GEM basic test and R&D plan Takuya Yamamoto （ Saga Univ. ）

Update on the Triple GEM Detectors for Muon Tomography K. Gnanvo, M. Hohlmann, L. Grasso, A. Quintero Florida Institute of Technology, Melbourne, FL.

1 TPC R&D proposal from the WIS group I. Ravinovich WIS I. Ravinovich12/15/2015.

IHEP, Beijing 9th ACFA ILC Physics and Detector Workshop & ILC GDE Meeting The preliminary results of MPGD-based TPC performance at KEK beam.

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

2/9/04 1 LBNL LC-TPC Activities ● International LC-TPC R&D ● Physics and Detector Simulations ● Micromegas-based TPC R&D ● US-Japan TPC R&D Proposal ●

D. Peterson, “TPC R&D at Cornell and Purdue”, ALCPG07, Fermilab, 23-October TPC R&D at Cornell and Purdue Cornell University Purdue University T.

TPC Studies at University of Victoria ALCPG meeting SLAC, January 2004 Dean Karlen University of Victoria / TRIUMF.

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.

TPC electronics Status, Plans, Needs Marcus Larwill April

The BoNuS Detector: A Radial Time Projection Chamber for tracking Spectator Protons Howard Fenker, Jefferson Lab This work was partially supported by DOE.

On behalf of the LCTPC collaboration VCI13, February 12th, 2013 Large Prototype TPC using Micro-Pattern Gaseous Detectors  David Attié 

HMPiD upgrade variant; simulation status N. Smirnov Physics Department, Yale University, May, 06. CERN visit.

Astrophysics Detector Workshop – Nice – November 18 th, David Attié — on behalf of the LC-TPC Collaboration — Beam test of the.

FEE for Muon System (Range System) Status & Plans G.Alexeev on behalf of Dubna group Turin, 16 June, 2009.

TPC R3 B R3B – TPC Philippe Legou Krakow, February nd

Vienna Conference on Instrumentation – February 27, D. Attié, A. Bellerive, K. Boudjemline, P. Colas, M. Dixit, A. Giganon,

Studies on the Drift Properties and Spatial Resolution Using a Micromegas-equipped TPC Philippines Japan Germany Canada France Asia High Energy Accelerator.

GEM TPC Resolution from Charge Dispersion*

T2K TPC Micromegas Prototype: Test Results on Harp setup

TPC Paul Colas Technical meeting, Lyon.

Prototype TPC Field cage maximum drift length: 260 mm

Dan Burke1, P. Colas2, M. Dixit1, I. Giomataris2, V. Lepeltier3, A

in a high intensity beam

TPC Development at Cornell

Ion Backflow Studies at Cornell

Pre-installation Tests of the LHCb Muon Chambers

Engineering Design Review

Presentation transcript:

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August The Cornell/Purdue TPC Information available at the web site: * this presentation: ALCPG Snowmass 23-August-2005 * presentation to LCWS05, Stanford 21-March-2005 * presentation to TPC mini-workshop, Orsay 12-January-2005, * presentation to ALCPG at Victoria, 28-July-2004, * presentation to ALCPG meeting at SLAC, 07-January-2004, * presentation to TPC meeting at Berkeley, 18-October-2003, * presentation to UCLC meeting at Santa Cruz, 30-June-2002, This project is supported by the US National Science Foundation (LEPP cooperative agreement) and by the US Department of Energy (Purdue base program) Cornell University Purdue University D. P. Peterson G. Bolla L. Fields I. P. J. Shipsey R. S. Galik P. Onyisi

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August TPC January 2005: construction completed, recorded first events 14.6 cm ID field cage - accommodates a 10 cm GEM 64 cm drift field length 22.2 cm OD outer structure (8.75 inch)

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August TPC details Read-out end: field cage HV distribution field cage termination readout pad and amplification module front end electronics CLEO II cathode preamps The construction is influenced by our research goal: to compare the various amplification technologies in a common environment. High Voltage end: LEMO HV connectors SHV bias trimming connectors gas connections field cage HV distribution

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August Field cage termination 10 cm The instrumented readout area is ~2cm x7 cm, 32 pads. The biased area is 10cm square. ( This pad board allows ~3 x 9 cm, 62 pads. ) Field cage termination area is 10cm square

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August MPWC and GEM amplification 10 cm The instrumented readout area is ~2cm x7 cm, 32 pads. The biased area is 10cm square. ( This pad board allows ~3 x 9 cm, 62 pads. ) The readout module including the amplification device mounted on pad board

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August Electronics High voltage system: -20 kV module, 2 channels available -2 kV module, 4 channels available (not part of interfaced system) +2 kV Readout: VME crate PC interface card LabView Struck FADC 32 channels (room for expansion) 105 M Hz 14 bit +/- 200 mV input range ( least count is 0.025mV ) NIM external trigger input circular memory buffer

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August TPC Readout End details Visible: field cage HV distribution field cage termination wire gas-amplification pad board pad biasing boards signal ribbon cable Biasing: drift: termination: -900V ( 1.0 cm ) grid: -600V ( 0.5 cm ) anode: +550V ( 0.5 cm ) pads: -2000V

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August MWPC event (typical) ArCO2 (10%), 300V/cm 25 MHz, 40 ns 2048 time buckets (81.92  s)

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August MWPC event (long drift) ArCO2 (10%), 300V/cm 25 MHz, 40 ns 2048 time buckets (81.92  s) Drift is 300 channels (t 0 ~ 100) 12  s

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August MWPC event (short drift) ArCO2 (10%), 300V/cm 25 MHz, 40 ns 2048 time buckets (81.92  s) Drift is -10 channels (t 0 ~ 100) (inside MWPC ?)

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August single GEM single GEM gas amplification CERN GEM mounted, tested by Purdue installed 11-March biasing: field cage, -20kV, 300 V/cm termination: -900V GEM voltage: -400V (GEM bottom: at ground) (Gas amplification ~100.) pads: V Electric fields: field termination – GEM top: 0.5 cm, 0.96 kV/cm induction gap: 0.3 cm, 5 kV/cm

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August single-GEM event ArCO2 (10%), 300V/cm 25 MHz, 40 ns 2048 time buckets (81.92  s) Note the 1 mv scale. Gas amplification is about 100

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August GEM event after smoothing and common noise subtraction ArCO2 (10%), 300V/cm 25 MHz, 40 ns 2048 time buckets (81.92  s)

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August GEM event after smoothing and common noise subtraction ArCO2 (10%), 300V/cm 25 MHz, 40 ns 2048 time buckets (81.92  s)

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August charge width This is influenced by the common “noise” subtraction.)

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August hit resolution (5mm pad) find tracks - require coincident signals in 6 layers locate maximum PH pad in each layer find PH center using maximum PH pad plus nearest neighbors ( 2 or 3 pads in the “hit” ) require the hit pulse height sum to have 70% of layer pulse height sum require 5 layers with interior hits ( Max. ph pad is NOT on the edge.) fit to a line may eliminate 1 hit with residual > 2.5mm ( Still require 5 layers with interior hits.) refit resolution is ~ 900  m, 0 to 40cm drift

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August Future Funding This project was previously funded by the LEPP NSF cooperative agreement. The current round of joint DOE/NSF Linear Collider detector R&D funding had project proposals due: 21-January Our project requests: Cornell: first year expanded readout new preamps positive HV supply instrumentation for ion feedback measurements gas Purdue: student support DOE/NSF action June 1, This project was partially funded.

D. Peterson, “The Cornell/Purdue TPC”, ALCPG, Snowmass, 23-August Next 1 year Cornell: Minor equipment expansion - Purchase low noise, positive HV supply for the anode Implement rows of small pads. ( Large pads, similar to the present pads, will be used for track definition.) Compare GEM, MicroMegas, and Wires within the same TPC. Compare multiple assemblies of “identical” gas-amplification stages. Switch to TESLA TDR gas. Measure resolution vs. drift distance, details of biasing, gas, ( location on pad ). Measure ion feedback with the various gas-amplification stages. Purdue: Mount and test single, double, triple GEM, and MicroMegas on standard pad boards. We have installed a CERN single-GEM. A CERN double-GEM is next. Carleton: The Carleton group (Alain Bellerive and Madhu Dixit) will prepare gas-amplification devices on the Cornell readout board for mounting in the Cornell/Purdue TPC. This will include resistive charge dispersion read-out stages. The groups will share in data-taking and developing a common analysis.