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

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Presentation transcript:

Stanford, Mar 21, 2005P. Colas - Micromegas TPC1 Results from a Micromegas TPC Cosmic Ray Test Berkeley-Orsay-Saclay Progress Report Reminder: the Berkeley-Orsay- Saclay cosmic setupReminder: the Berkeley-Orsay- Saclay cosmic setup News since the Paris LCWS04 : cosmic ray data takingNews since the Paris LCWS04 : cosmic ray data taking Preliminary resultsPreliminary results First MC studiesFirst MC studies Future plansFuture plans P. Colas 5, I. Giomataris 5, V. Lepeltier 4, M. Ronan 1, K. Sachs 2, T. Zerguerras 3 1) LBNL Berkeley, 2) Carleton Univ., 3) IPN Orsay, 4) LAL Orsay, 5) DAPNIA Saclay 2005 LC WORKSHOP

Stanford, Mar 21, 2005P. Colas - Micromegas TPC2 Berkeley Saclay Orsay Chamber diameter 50 cm length 50 cm Copper mesh 50  m pitch 50  m gap The setup DAQ speaded up by a factor 20 in May 2004 Trigger improved : 20/min 67% eff. 2T magnet at Saclay

Stanford, Mar 21, 2005P. Colas - Micromegas TPC3 Online event display Rows 4 & 5 (software from D. Karlen, adapted by M.Ronan)

Stanford, Mar 21, 2005P. Colas - Micromegas TPC4 Data cosmic tracks recorded at magnetic fields of 0.1, 0.3, 0.5, 0.7, 1, 1.5 & 2 tesla with Ar-CF4:3%, Ar-CH4:10%(P10), Ar- Isobutane:5% and some TDR gas data. Trigger simulation shows good understanding of angular distribution.

Stanford, Mar 21, 2005P. Colas - Micromegas TPC5 2x10 mm 2 pads 1024 pads 1x10 mm 2 pads Readout anode pad plane Track reconstruction Subtract pedestals, using the first 15 time buckets + 15 after the chamber end Max-likelihood fit the distribution of the number of electrons per pad with 4 parameters : (x 0, ,1/R,  )  is the track width 2 programs: one by D. Karlen, adapted by M. Ronan, in Java, and one by K. Sachs in F95, adapted by P.C. and T. Zerguerras.

Stanford, Mar 21, 2005P. Colas - Micromegas TPC6 Plot truncated mean energy deposition vs drift distance, and fit an exp. dependance attenutation length in ArCF 4 > 440 cm at 90% C.L. Attenuation in Ar+3% CF 4

Stanford, Mar 21, 2005P. Colas - Micromegas TPC7 dE/dx measurement Plot average truncated mean vs momentum for our cosmic tracks: Bethe-Bloch curve clearly visible, with the relativistic rise and the 1/  2 fall-off

Stanford, Mar 21, 2005P. Colas - Micromegas TPC8 Gas mixture E drift (V/cm) V drift (cm/  s) Magboltz Ar+5%iso ± P ± P ± Ar+3%CF ± Drift velocity measurements Ar+3%CF4 Select tracks near the far end. Look at the time at which they exit the chamber. Add offset ns (trigger delay) Divide by the length (47.9 cm) Excellent agreement with Magboltz (S. Biaggi, 2004) within 2% accuracy!

Stanford, Mar 21, 2005P. Colas - Micromegas TPC9 Transverse diffusion measurements Fit  =  (  0 2 +D T 2 z) Ar CF 4 B=0.3T Ar CF 4

Stanford, Mar 21, 2005P. Colas - Micromegas TPC10 Transverse diffusion Monte Carlo Check with MC: input 140  m/  cm Fit  m/  cm

Stanford, Mar 21, 2005P. Colas - Micromegas TPC11 Transverse diffusion Results 97:3 PRELIMINARY

Stanford, Mar 21, 2005P. Colas - Micromegas TPC12 Transverse diffusion Results Expect D T =D T (B=0)/  (1+  2  2 ) Plot 1/D T 2 vs B 2 Find good agreement for ArIsobutane and ArCF4, but factor of 2 in  2  2 /B 2 D T 2 (0) for P10.

Stanford, Mar 21, 2005P. Colas - Micromegas TPC13 Resolution studies Fit residuals distribution with all lines in the track fit, and with all except one. The point resolution is  point =  (  with x  wout ). Plot  point vs z : observe resolutions about 100  m and variation with z due to diffusion Resistive foil probably needed to obtain the full resolution that Micromegas can yield. Gain~500 Gain~2000

Stanford, Mar 21, 2005P. Colas - Micromegas TPC14 Resolution studies Results obtained at Carleton with M. Dixit et al. (see next talk) using 4.5 keV X-rays Being reproduced with a photo- electron laser source at IPN Orsay 80  resol. with 2mm pads

Stanford, Mar 21, 2005P. Colas - Micromegas TPC15 MPI-KEK beam test in preparation (With R. Settles, T. Matsuda, A. Sugiyama et al., M. Dixit et al., Ph. Rosier, …) Detector PCB, mechanical adapter and mesh ready. Soldering of RO connections in progress (380 wires). Field cage Soldering tool

Stanford, Mar 21, 2005P. Colas - Micromegas TPC16 Conclusions The Berkeley-Orsay Saclay Micromegas TPC has taken good data and is performing interesting measurements. Monte Carlo is now available for the diffusion and resolution studies. Bulk Micromegas now produced daily at Saclay. A new method for cutting bulks is developped. Future plans include: Perform beam tests in the MPI setup at KEK Intensify electronics R&D