LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D1 R&D for a digital TPC The SiTPC project The digital TPC concept and advantages VLSI electronics:

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Presentation transcript:

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D1 R&D for a digital TPC The SiTPC project The digital TPC concept and advantages VLSI electronics: from Medipix2 to TimePix Micromegas and GEM achievements Integrated grid Protection issues Aging studies A.Bamberger, D. Burke, M. Campbell, M. Chefdeville, P. Colas, K. Desch, A. Giganon, I. Giomataris, M. Hauschild, E. Heijne, X. Lloppart, S. van der Putten, C. Salm, J. Schmitz, S. Smits, H. Van der Graaf, J. Timmermans, M. Titov, J. Visschers, P. Wienemann (CERN, Freiburg, MESA+/Twente, NIKHEF, Saclay)

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D2 The digital TPC concept Reconstruct a track electron by electron (or cluster by cluster) Optimally use this basic information: Insensitive to gain fluctuations dE/dx optimal resolution from cluster counting If you cover the whole TPC surface, O( ) channels instead of 10 6, but all digital (1/0) First costing attempts show it is comparable or cheaper than a standard readout Can consider replacing a few pad-rings by digital anode chips (gas club sandwich) 1 cm

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D3 In first approximation, gain fluctuates exponentially in a parallel- plate chamber. In presence of noise, a 4 or 5 st.dev. cut costs in efficiency for single electron A gain of was necessary to see the single electrons with 90% efficiency Sparks destroy the chips -> LOWER NOISE -> PROTECT CHIPS Gain fluctuations

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D4 The gain with modified Medipix (80% conductive surface) is 3 to 4 times larger than with unmodified Medipix (20% conductive surface) Gain with He+20% isobutane

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D5 The Freiburg GEM setup drift electrode readout electrode GEM 1 GEM 2 GEM 3 typ. potentials/fields: E D = 1.1 kV/cm ΔV GEM = 404 V E T = 3.2 kV/cm E I = 4.0 kV/cm 6mm 2mm 1mm

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D6 25 pads of 2x2 cm 2 with readout β - source Ru106, 3.5 MeV from daughter Rh106 crosses 4 pads with MediPix2 in between The Freiburg GEM setup for point resolution measurement

LCWS Bangalore, March 13, P. Colas, Digital TPC R&DA. Bamberger7 Resolution σ = 64.5 μm Ar/CO2He/CO2 residuals (str. line)* 65 ± 1.4 μm51 ± 2.5 μm Triplet meth resolution, 57 ± 1.3 μm53 ± 2.8 μm Difference understood: Due to multiple scattering * slightly biased, still under investigation n-1 n residual n+1 triplet method: residuals reweighted by a factor close to √(2/3) Two methods: residuals of a straight line fit and triplet method

LCWS Bangalore, March 13, P. Colas, Digital TPC R&DA. Bamberger8 a “fast” δ-electron incoming e- from 106 Ru outgoing electron at ~ 10° recoil electron of > 23 keV because track length >3mm angle close to 90° He/CO 2

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D9 Simulations at CERN: Threshold Scan 200 ± 20 e ± 40 e ± 60 e ± 80 e ± 100 e - detection thresholds per pixel (allow 10% variation): noise: 100 e - simulated 0.5 GeV muon measured cosmic threshold: 3000 ± 300 e - noise: 100 e - no threshold no noise GEM MicroMegas M. Hauschild

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D10 From Medipix2 to Timepix Medipix collaboration: 17 institutes, since 1999 CMOS chip, 0.25  technology, pixels on 2cm 2 Upgrade of Medipix2: MXR version, less sensitive to temperature, finer setting of the pedestals pixel by pixel Also new readout board/card: USB (so far 6x slower than MUROS board) 1 pixel = preamp (1)+ 2discri (2,3) + 8-bit DACs (4)+ 14-bit counter (6)

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D11 New Medipix2/MXR under study at Saclay

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D12 New Medipix2/MXR under study at Saclay Noise vs. Running Time (from cold) Medipix2/MXR Chip J07

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D13 New Medipix2/MXR under study at Saclay Average number of hits vs time, for threshold at median noise: Slight offset

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D14 New Medipix2/MXR under study at Saclay Average number of hits vs time, for threshold 1 step higher Offset larger in relative value This means that there is correlated noise, thus room for improvement

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D15 From Medipix2 to Timepix Minimize changes to limit risks Provide a time measurement : distribute the clock (10 to 100 MHz) on every pixel (a clock per pixel was envisaged, but clock frequency is a function of power) Columns of ring oscillators with current starving are used for this (column buffered clock) Switchable Time-Over-Threshold (provides spectral capability) pixel by pixel. Provide protection by a resistive layer (3 microns of hydrogenated amorphous silicon, .cm), equivalent to a O(100 M  ) resistor which discharges slowly the mesh and lowers HV locally OK for our signals 1/C  << R (C~20 fF) TEST IN PROGRESS

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D16 Further Developments Chip tiling: large(r) detector surfaces (2x2, 2x4 chips) Through Si connectivity: avoiding bonding wires Fast readout technology (~5 Gb/s) RELAXD project (Dutch/Belgian) NIKHEF,Panalytical,IMEC,Canberra:

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D17 Further development:InGrid (MESA+/Twente,NIKHEF) Integrating the Micromegas by Silicon wafer post-processing allows: to avoid Moire effects (perfect alignment) and gap variations to avoid dead areas, like frames (even hidden pillars) to segment the mesh (lower noise, more reliability)

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D18 Results with Argon + 20% isobutane 55 Fe 5.9 keV line and escape line in Ar clearly visible. Unprecedented resolution:  E /E = 6.5%. (FWHM=15.3%) K  and K  (6.5 keV) lines are separated by the fit. More tests in progress with smaller gaps (40  successful) Study of the gas gain fluctuations in progress Ar escape 55 Fe K  55 Fe K 

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D19 Aging studies in NIKHEF and Saclay January 2006 at NIKHEF: Use a Xe lamp to produce photo-electrons on a mesh Broke record of current in a MPGD: 150 micro- Ampere on 65 mm 2 ! (equivalent to 5 years of LHC at 30cm from the beam in one hour) Aging studies continue, with this Xe lamp in NIKHEF and with a X-ray gun in Saclay Xe lamp Micromegas detector collimator UV window

LCWS Bangalore, March 13, 2006 P. Colas, Digital TPC R&D20 Future: EUDET/SiTPC Kick-off meetings held at NIKHEF and DESY in January and February ’06. Clear milestones with deliverables 2006 through 2009 CERN-Freiburg-NIKHEF-Saclay (+ soon Bonn? Bucarest?), open to newcomers. 2M€+, of which 850 k€ allocated by EC. TimePix design at CERN (until June 2006) Develop post-processings for protection and mesh integration Return from submit this summer, then perform tests (and iterate?) Build a detector (deliverable in 2 years) Watch the outcome of 130 nm and 90 nm technologies (CERN)