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Endplate meeting – September 13, 20061 Gas issues for a Micromegas TPC for the Future Linear Collider David Attié D. Burke; P. Colas;

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Presentation on theme: "Endplate meeting – September 13, 20061 Gas issues for a Micromegas TPC for the Future Linear Collider David Attié D. Burke; P. Colas;"— Presentation transcript:

1 David.Attie@cea.fr Endplate meeting – September 13, 20061 Gas issues for a Micromegas TPC for the Future Linear Collider David Attié D. Burke; P. Colas; E. Delagnes; Y. Giomataris; A. Giganon; M. Was Endplate Meeting – September 13, 2006

2 David.Attie@cea.fr Endplate meeting – September 13, 20062 Introduction Goal and description of the measurement campaign Simulations with GARFIELD/MAGBOLTZ Gain curves The Penning effect with a Penning mixture gas Resolution Evaluation of the Townsend coefficients Comparisons of measurements/simulations gains Conclusion

3 David.Attie@cea.fr Endplate meeting – September 13, 20063 Gain measurements : description Description : Using the same detector Transparent plastic box of 20 cm x 20cm x 6 cm size “Standard” 50  m mesh of 10 cm x 10 cm size Sources: - Fe 55 (5.9 keV) - COOL-X (8.1 keV) Monitoring of: - pressure - H 2 O Gas mixing system with triple mixture available Aims : find gas mixture comfortable gain margin to use into a Micromegas TPC verification of the Townsend coefficients

4 David.Attie@cea.fr Endplate meeting – September 13, 20064 Gain measurements : description Source Mesh (HV1) Drift grid (HV2) Anode (E=0V) Gas (IN) Gas (OUT) Drift length : 13 mm Distance drift grid-source ~ 45 mm HV2-HV1 = constant (but gas dependant)

5 David.Attie@cea.fr Endplate meeting – September 13, 20065 Gain measurements : simulation E drift = 220 V/cm Longitudinal diffusion Transversal diffusion Drift Velocitiy Simulations from GARFIELD/MAGBOLTZ

6 David.Attie@cea.fr Endplate meeting – September 13, 20066 Gain measurements : simulation Simulations from GARFIELD/MAGBOLTZ Choice : E drift = 220 V/cm

7 David.Attie@cea.fr Endplate meeting – September 13, 20067 Gain measurements : simulation Simulations from GARFIELD/MAGBOLTZ Choice : E drift = 300 V/cm

8 David.Attie@cea.fr Endplate meeting – September 13, 20068 Gain measurements : simulation Simulations from GARFIELD/MAGBOLTZ Choice : E drift = 500 V/cm Longitudinal diffusion Transversal diffusion Drift Velocitiy

9 David.Attie@cea.fr Endplate meeting – September 13, 20069 Energy (keV) Counts Gain measurements : spectrum Argon Isobutane : 5% (source : Fe 55 ) E mesh = 72 kV.cm -1 RMS ~ 6,0 % 3 keV5,9 keV

10 David.Attie@cea.fr Endplate meeting – September 13, 200610 Pressure monitoring in Saclay

11 David.Attie@cea.fr Endplate meeting – September 13, 200611 Gain curves summary Mixtures of gases containing argon

12 David.Attie@cea.fr Endplate meeting – September 13, 200612 Gain curves Mixtures of gases containing Argon and Isobutane E drift = 220 V/cm

13 David.Attie@cea.fr Endplate meeting – September 13, 200613 Gain curves Mixtures of gases containing Argon, Isobutane and CF4 E drift = 220 V/cm

14 David.Attie@cea.fr Endplate meeting – September 13, 200614 Gain curves Mixtures of gases containing Argon, Ethane E drift = 100 V/cm

15 David.Attie@cea.fr Endplate meeting – September 13, 200615 Gain curves Mixtures of gases containing Argon, Ethane and CF4 +3% +10 % E drift = 300 V/cm

16 David.Attie@cea.fr Endplate meeting – September 13, 200616 Gain curves Mixtures of gases containing Argon, Methane E drift = 300 V/cm

17 David.Attie@cea.fr Endplate meeting – September 13, 200617 Gain curves Mixtures of gases containing Argon, Methane and CF4 E drift = 300 V/cm (CH4) E drift = 250 V/cm (CH4,CF4)

18 David.Attie@cea.fr Endplate meeting – September 13, 200618 Gain measurements : Penning Effect Ne/Argon – Iso 5% The Penning mixture is a mixture of inert gas with another gas, that has lower ionization voltage than either of its constituents Penning effect : The other gas has to have lower ionization potential than the first excited state of the noble gas. The excitation of the noble gas atoms is tranfered to the quencher gas molecules via collisions

19 David.Attie@cea.fr Endplate meeting – September 13, 200619 Gain measurements : Penning Effect Ne/Argon – Iso 5%

20 David.Attie@cea.fr Endplate meeting – September 13, 200620 Gain measurements : Penning Effect Ne/Argon – Iso 5%

21 David.Attie@cea.fr Endplate meeting – September 13, 200621 Penning effect GasIonization energy E i (eV) Xe 12,1 Ar15,7 Ne21,6 He24,5 Possibilities of Penning mixtures: Ne-Ar Ar-Xe Ar-Acetylene Ne-Xe Ar-impurities who have lower E i ?! …

22 David.Attie@cea.fr Endplate meeting – September 13, 200622 Gain measurements : Townsend coefficients N = N 0 ×exp[  ×d] With  = A×P×exp[-B×P/E] Argon-Isobutane

23 David.Attie@cea.fr Endplate meeting – September 13, 200623 Resolution Best RMS ~ 6 %

24 David.Attie@cea.fr Endplate meeting – September 13, 200624 Gain measurements : comparison with simulations Simulations from GARFIELD/MAGBOLTZ

25 David.Attie@cea.fr Endplate meeting – September 13, 200625 Simulations from GARFIELD/MAGBOLTZ Gain measurements : comparison with simulations

26 David.Attie@cea.fr Endplate meeting – September 13, 200626 Simulations from GARFIELD/MAGBOLTZ Gain measurements : comparison with simulations

27 David.Attie@cea.fr Endplate meeting – September 13, 200627 Gain measurements : comparison with simulations Simulations from GARFIELD/MAGBOLTZ

28 David.Attie@cea.fr Endplate meeting – September 13, 200628 Gain measurements : comparison with simulations Simulations from GARFIELD/MAGBOLTZ

29 David.Attie@cea.fr Endplate meeting – September 13, 200629 Ratio of the fields

30 David.Attie@cea.fr Endplate meeting – September 13, 200630 Gas mixture for LC TPC QuencherNameLower Explosion Limit CH 4 methane5,0 % C2H4C2H4 ethene, ethylene2,7 % C2H6C2H6 ethane3,0 % iC 4 H 10 isobutane1,8 % C 6 H 10 cyclohexene< 1 % C 6 H 12 cyclohexane Dangerous for the environment The noble gas will be probably Argon (cost, properties) Double gas mixture or triple (with CF4) ? The quencher choice is still open

31 David.Attie@cea.fr Endplate meeting – September 13, 200631 Summary Still have the precedent gain and resolution with the Argon-Isobutane mixture Measurement with Ethene mixture The understanding of the gap between measurements and simulation is not obvious The Penning Effect could be useful For now the choice is still open…

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