large tpcs for hep
DESCRIPTION
RD51. Large TPCs for HEP. P. Colas. Lanzhou U., Saclay, Tsinghua U. T ime P rojection C hamber. t. electrons diffuse and drift due to the E-field. Ionizing Particle. electrons are separated from ions. E. B. A magnetic field reduces electron diffusion. y. x. - PowerPoint PPT PresentationTRANSCRIPT
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Large TPCs for HEPP. Colas
Lanzhou U., Saclay, Tsinghua U.
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP 2
E
Ionizing Particle
electrons are separated from ions
electrons diffuse and drift due to the E-field
Localization in time and x-y
B
t
x
y
A magnetic field reduces electron diffusion
MPGD TPC : the amplification is made by a MPGD
Time Projection Chamber
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TPCs in HEPContinuous 3D tracking in a large gaseous volume with O(100) space points.
T2K TPC for ND280(M. Zito, F. Pierre)
ILC-TPC (ILD concept)
Tests at TRIUMFInstallation at JPARCStartup end 2009
Large prototype being tested at DESY
Wuhan, March 23, 2009 3P. Colas - TPCs for HEP
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LCTPC Collaboration
Wuhan, March 23, 2009 4P. Colas - TPCs for HEP
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DETECTION TECHNOLOGIES
Wuhan, March 23, 2009 P. Colas - TPCs for HEP 5
Micromegas and GEM
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP
S1
S2
• VeryVery
Two copper perforated foils separated by an insulator (50 m). Multiplication takes place in the holes.
Usually used in 2 or 3 stages.
a micromesh supported by 50-100 m - high insulating pillars. Multiplication takes place between the anode and the mesh
200 m
GEMMicromegas
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resistive anode
12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 7
D. Arogancia, K. Fujii et al., to appear in NIM A
LC-TPC goal is 200 measurement points on a track, with <130 micron resolution
With Micromegas, signal spread is equal to the avalanche size, 12-14 microns : not enough charge sharing at low diffusion even with 1mm pads.Need to share the charge between neighbouring pads to make a barycentre possible and improve resolution.
With GEMs, diffusion in the last transfert gap helps to spread the charge and good resolution is obtained with 1mm-wide pads.
Both solutions are studied in LC-TPC:Micromegas with resistive anode or GEMS with small standard pads.
Note that charge sharing saves number of channels ($, W, X°).
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resistive anode (2)
12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 8
One way to make charge sharing is to make a resistive anode (M.S.Dixit et.al., NIM A518 (2004) 721.) This corresponds to adding a continuous RC circuit on top of the pad plane. Charge density obeys 2D telegraph equation
t
1
RC
2r2
1
r
r
(r, t) RC
2t
r2RC
4 teM.S.Dixit and A. Rankin NIM A566 (2006) 281
SIMULATION
MEASUREMENT
Res. foil also provides anti-spark protection
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP 9
Small prototypes Micromegas
DESY 5T cosmic test, 200750 µm resolution with 2mm pads
KEK beam test, MP-TPC (2005)
Carleton TPC with res. anode
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Small prototypes
Wuhan, March 23, 2009 P. Colas - TPCs for HEP 10
GEM prototype built at Tsinghua to train and measure gas properties, with help from Japan.
Also work on MP-TPC cosmic-ray test at KEK.
Good operation with Ar-CF4-isobutane.
Tsinghua GEM
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THE LARGE PROTOTYPE
Wuhan, March 23, 2009 P. Colas - TPCs for HEP 11
LC-TPC project using the EUDET test facility at DESY
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The EUDET setupat DESY
PCMag magnet from KEKCosmic trigger hodoscope from Saclay-KEK-INRBeam trigger from NikhefDummy modules from BonnField cage, gas from DESYEndplate from Cornell
12/03/2009, Tsukuba 12P. Colas, Micromegas TPC tests
Test one Micromegas module at a time
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Common data taking at DESY
Wuhan, March 23, 2009 13P. Colas - TPCs for HEP
Li Bo David Attié
T. MatsudaR. Yonamine
H. Kuroiwa
FCPPL
FJPPL
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About 3200 readout channelsALTRO-based electronics
(made at CERN)
Wuhan, March 23, 2009 14P. Colas - TPCs for HEP
About 2000 readout channelsAFTER-based electronics
(made in Saclay)
GEMMicromegas
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12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 15
DOUBLE GEMMicromegas
‘Bulk’ technology (CERN-Saclay) with resistive anode (Carleton)
New 100 micron GEM (plasma-etched in Japan) stretched from 2 sides.
Pad plane from Tsinghua
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Wuhan, March 23, 2009 16P. Colas - TPCs for HEP
DOUBLE GEMMicromegas
4-layer routing (CERN) and 6-layer routing (Saclay)24x72 pads, 2.7-3.2 mm x 7 mm
8-layer routing done at Tsinghua28x176-192 pads, 1.1 mm x 5.6 mm
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Wuhan, March 23, 2009 17P. Colas - TPCs for HEP
Double GEMMicromegas
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FIRST MICROMEGAS RESULTS
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12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 19
0
1
2
3
4
5
6
7
8
0 100 200 300 400 500 600
Z (mm) arbitrary origin
Drif
t tim
e (µ
s)
Measured drift velocity (Edrift = 230 V/cm, 1002 mbar) : 7.56 ± 0.02 cm/µs
Magboltz : 7.548 ± 0.003 pour Ar:CF4:isobutane:H2O/95:3:2:100ppm
B=0 data
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DESY - 8 déc. 2009 TPC Analysis 20
y = 13,884x - 165,42
-200
-150
-100
-50
0
50
100
150
200
0 4 8 12 16 20 24Dis
plac
emen
t w
rt v
ertic
al s
trai
ght
line
(mic
rons
)
Pad line numberRms displacement: 9 microns
B=0 data
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12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 21
Determination of the Pad Response Function(B=1T beam data)
Fraction of the row charge on a pad vs xpad – xtrack
(normalized to central pad charge)
Clearly shows charge spreading over 2-3 pads(use data with 500 ns shaping)
Then fit x(cluster) using this shape with a ² fit, and fit simultaneously all rows to a circle in the xy plane
xpad – xtrack (mm)
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12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 22
RESIDUALS (z=10 cm)
Do not use lines 0-4 and 19-23 for the time being (non gaussian residuals, magnetic field inhomogeneous for some z positions?)
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12/03/2009, Tsukuba P. Colas, Micromegas TPC tests 23
Resolution 46±6 microns with 2.7-3.2 mm padsEffective number of electrons 23.3±2.0 consistent with expectations
eff
dx N
zC 2
20
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FCPPL ACHIEVEMENTS (2008) AND PROJECTS (2009)
Wuhan, March 23, 2009 P. Colas - TPCs for HEP 24
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP 25
FCPPL REPORT FOR 2008
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TPC school at Tsinghua (January 2008)
Yuanning Gao
Max ChefdevillePaul Colas
Yulan Li
Wuhan, March 23, 2009 26P. Colas - TPCs for HEP
+ meeting at Dresden and DESY with Li Yulan and Li Jin
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RD51
Wuhan, March 23, 2009 27P. Colas - TPCs for HEP
Prof. Zhang Xiaodong from Lanzhou visiting Rui de Oliveira’s MPGD workshop at CERN (Jan. 2009)
Consortium to share knowledge and resources for MPGD R&D
50 institutes (of which Lanzhou U. and USTC Hefei, Tsinghua expected).
2 collab. meetings per year, many collaborative activities:- Beam tests at CERN (oct. 2009)- Hands-on sessions for GEM and mM- collaboration on gas and E-field simulation software- development of user-ready electronics and DAQ- bulk order of materials
Micro-Pattern Gaseous Detectors
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP 28
PLANS FOR 2009
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP 29
Continue data taking with Tsinghua at DESY and start soon collaborative analysis of beam test data (together with japanese and other LC-TPC members).
Welcome a Lanzhou student (Wenxin Wang) this summer for a PhD thesis in Saclay, at Orsay University, with a Chinese Governement grant, to work on ‘Large-area Micromegas detectors for muon detection and calorimetry’ (i.e. forward muon chambers for ATLAS and DHCAL for ILC, with possible application in muon tomography).
J. Wotschack (MAMMA project)
ATLAS muon chambers as flat TPCsSensitivity to track angle for PT-dependent triggering
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Wuhan, March 23, 2009 P. Colas - TPCs for HEP 30
Prepare a proposal with Lanzhou, probably on fast-neutron radiography, using T2K 1728 channel electronics from Saclay and PCB by Lanzhou.Simulations by Xiaodong Zhang have been presented at a RD51 meeting in January.
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Conclusions• A lot has been done this year, even more is in
view.• FCJPPL and other bilateral agreements might
be the building axes of a world laboratory
Wuhan, March 23, 2009 P. Colas - TPCs for HEP 31
F
CJ