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Micromegas TPC: New Results and Prospects. Amsterdam. ECFA-DESY workshop. F. Bieser 1 , R. Cizeron 2 , P. Colas 3 , C. Coquelet 3 , E. Delagnes 3 , P. Desaunnais 2 A. Giganon 3 , Y. Giomataris 3 , G. Guilhem 2 , J. Jeanjean 2 , - PowerPoint PPT Presentation
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 1
Micromegas TPC: New Micromegas TPC: New Results and Prospects Results and Prospects Micromegas TPC: New Micromegas TPC: New Results and Prospects Results and Prospects
• New tests in magnetic fieldNew tests in magnetic field
• FeedbackFeedback
• Cosmic setupCosmic setup
F. Bieser1, R. Cizeron2, P. Colas3, C. Coquelet3, E. Delagnes3, P. Desaunnais2
A. Giganon3, Y. Giomataris3, G. Guilhem2, J. Jeanjean2, V. Lepeltier2, V. Puill2, Ph. Rebourgeard3, J.-P Robert3, M. Ronan1
(and many others, not mentionned)1) LBL, 2) LAL Orsay, 3) DAPNIA Saclay
ECFA-DESY workshopworkshop
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 2
Measurements in a magnetic fieldMeasurements in a magnetic fieldMeasurements in a magnetic fieldMeasurements in a magnetic field
2T magnet in operation since March 2002 in Saclay.
2 data taking periods until now:
June 2002: ion feedback measurements in a 1cm-drift MWPC TPC and a Micromegas TPC
February 2003: measurement of the gain and of the ion feedback with a 15cm-drift Micromegas TPC
Future: take cosmic tracks in a 50 cm, 1000 channel Micromegas TPC
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 3
Measurements in a magnetic fieldMeasurements in a magnetic fieldMeasurements in a magnetic fieldMeasurements in a magnetic field
The 2T, 530mm bore magnet is now in its final location.
It provides a 1% homogeneous field over +-25cm.(An 8 T, 150mm bore magnet could be used in the future)
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 4
The 15 cm drift TPCThe 15 cm drift TPCThe 15 cm drift TPCThe 15 cm drift TPC
Gains up to
7000 for Ar+3%CF4 at 75 kV/cm over 50 m
64000 for Ar+10% isobutane at 84 kV/cm over 50 m
were measured in Orsay (january 2003).
In the following measurements, the gain was about 1300 and the gas was Ar+10%CH4
THE RUNNING CONDITIONS ARE REALISTIC:
Long drift : 15cm
drift field : 240 V/cm
Moderate gain
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 5
Measurements in a magnetic fieldMeasurements in a magnetic fieldMeasurements in a magnetic fieldMeasurements in a magnetic field
Measure the iron 55 peak position and width as a function of the magnetic field
B=1 tesla
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 6
Measurements Measurements in a magnetic in a magnetic
fieldfield
Measurements Measurements in a magnetic in a magnetic
fieldfield
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 7
Ion feed-back: the micromegas funnel Ion feed-back: the micromegas funnel effecteffect
Ion feed-back: the micromegas funnel Ion feed-back: the micromegas funnel effecteffect
S1/S2 ~ Eamplif / Edrift ~80 000 / 200
Due to electron diffusion, most ions are created outside the funnel tube : when S1/S2 is large and comparable to the pitch (S2 small wrt avalanche cloud size) , the ions areunlikely to follow back the field lines to the drift space.
The ions return to the grid: ion feed-back and
related space charge
effects are suppressed
S1
S2 L
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 8
l
Calculations : add the contribution of each hole to the electron yield -> get the fraction in the funnel tube
2D
3D
Ion feedback theoryIon feedback theoryIon feedback theoryIon feedback theory
The two important quantities are : the dispersion after 50 microns and l, the grid pitch
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 9
Results
1500 lpi (sigma/l=0.75)1000 lpi (sigma/l=0.5)500 lpi (sigma/l=0.25)
5.2_
_ ratiofield
feedbackion 03.1_
_ ratiofield
feedbackion 1_
_ ratiofield
feedbackion
Ion feedback theoryIon feedback theoryIon feedback theoryIon feedback theory
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 10
ion feedback
0
0,05
0,1
0,15
0,2
0,25
0,3
0,2 0,3 0,4 0,5 0,6 0,7 0,8
sigma/l
ion
fee
db
ack
Field ratio
Feedback 2D
Feedback 3D
Conclusion: the ion feedback is close to its optimum of 1/field ratio if /l > 0.5 (i.e. >1000 l.p.i. meshes for usual gases)
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 11
ION FEEDBACK MEASUREMENTS
Vmesh
Vdrift
I2 (mesh)
I1 (pA-meter)
X-ray source
Primaries + feedback
I1+I2 ~ G x primaries
Obtain primaries from G=1 (Vmesh small)
Eliminate G between the 2 equations to obtain the feedback fraction
Typically 25 pA
Typically 350 pA
Typically 35 nA
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 12
The feedback does not depend significantly on the magnetic field
It is in agreement with prediction for Ar-CH4 (90:10) and for a 500 lpi grid (data from June 2002)
Optimal case
(reached for a 1000 lpi grid)
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 13
In the February 2003 data taking, the field ratio was 334, corresponding to an optimal feedback of 0.3%. The observed feedback, 0.9%, is what is expected for a 500 lpi grid.
-> We have a good understanding of the feedback in a micromegas TPC. It is insensitive to magnetic fields up to at least 2T.
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 14
TPC for the cosmic test
Field cage
Detector
Front end electronics
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 15
2x10 mm2 pads
1024 pads
1x10 mm2 pads
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 16
Front-end electronicsFront-end electronicsFront-end electronicsFront-end electronics
STAR readout.
32 channels per card, 10-bit ADC, up to 512 50ns time buckets.
16 cards have been modified to raise the pedestal, to gain sensitivity to negative signals, and protection diodes have been added
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 17
Tests of front-end electronicsTests of front-end electronicsTests of front-end electronicsTests of front-end electronics
1000 channels being tested.
Noise <4counts per channel3cards to be repared2% of the channels have pbs
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 18
Status of the cosmic testStatus of the cosmic testStatus of the cosmic testStatus of the cosmic test
Magnet operational, in final position
Endplate fully wired
Mesh manufactured last week, to be tested
Cosmic trigger being installed
New high purity gas system being ordered
Field cage under construction
Amsterdam, April 2,2003 P. Colas - Micromegas TPC 19
CONCLUSIONCONCLUSIONCONCLUSIONCONCLUSION
• New measurements have shown that the behaviour of a micromegas TPC in a magnetic field is not deteriorated. Gain, transparency, ion feedback have been shown not to be affected by a 2T magnetic field.
• Collaboration with Carleton showed charge spreading on a micromegas with the anode coated with a resistive foil
• These results, together with aging tests and other measurements and simulations already presented, show the adequation of micromegas technology to the readout of the LC TPC
• A cosmic test is in preparation, with 1000 pads.
