JRA1 Status: PCMAG, Sensors and Infrastructure Tobias Haas DESY/F1 11 September 2006.

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Presentation transcript:

JRA1 Status: PCMAG, Sensors and Infrastructure Tobias Haas DESY/F1 11 September 2006

Tobias Haas: JRA1 Status This Talk Reminder: JRA1 Reminder: JRA1 Magnet Magnet Sensors Sensors Infrastructure Infrastructure Simulations Simulations Results from MIMO*2 DESY Results from MIMO*2 DESY Personnel/Finances Personnel/Finances

11 September 2006Tobias Haas: JRA1 Status JRA1 General Purpose Test beam infrastructure General Purpose Test beam infrastructure DESY Test beam DESY Test beam PCMAG PCMAG Pixel telescope Pixel telescope high precision (~ 1 µm even in a 6 GeV/c electron beam) high precision (~ 1 µm even in a 6 GeV/c electron beam) reasonably large area (~ 1 – 2 cm) reasonably large area (~ 1 – 2 cm) Fast readout (~1kHz frame rate) to handle higher rate environments Fast readout (~1kHz frame rate) to handle higher rate environments  Staged Implementation Demonstrator telescope with slightly less precision and slower R/O (analog pixel sensor) Demonstrator telescope with slightly less precision and slower R/O (analog pixel sensor) Final telescope with high precision and high rate (pixel sensor with ADC and data reduction on chip Final telescope with high precision and high rate (pixel sensor with ADC and data reduction on chip

11 September 2006Tobias Haas: JRA1 Status WEB info

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status Detailed planning constantly being iterated Current Planning now DESY Demonstrator Integration Starts PCMAG Available Demonstrator Available Final Telescope Available

11 September 2006Tobias Haas: JRA1 Status Preparation of Test Beam Area 24/1 for PCMAG EntranceConcrete Block as Base for PCMAG The test beam area has been renovated by MEA (Norbert Meyners). A concrete block is placed in the area as base for the PCMAG. Two holes with Ø 100mm are drilled in the floor, to access the cable trays in the cave, which connect the beam area with the control room A helium return line is installed. Carsten Muhl

11 September 2006Tobias Haas: JRA1 Status PCMAG All administrative issues about the transfer to DESY are clarified. All administrative issues about the transfer to DESY are clarified. Magnet DESY at the end of September Magnet DESY at the end of September Commissioning to take DESY in October Commissioning to take DESY in October KEK Tobias Haas

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status

11 September 2006Tobias Haas: JRA1 Status DUT Positioner x y  10 offers evaluated. 10 offers evaluated. Decision for PI: offers the best price-performance ratio, Decision for PI: offers the best price-performance ratio, Expected precision: few microns, Expected precision: few microns, Ordered complete stage: assembled and surveyed with steering components and software Ordered complete stage: assembled and surveyed with steering components and software Expect delivery in October 2006 Expect delivery in October 2006 Will be set up in the lab for testing in October/November 2006 Will be set up in the lab for testing in October/November 2006 Ready for installation in test beam spring 2007 Ready for installation in test beam spring 2007 Carsten Muhl

11 September 2006Tobias Haas: JRA1 Status Senor Boxes Design is still being iterated: Cooling and fixation will most likely change Carsten Muhl

11 September 2006Tobias Haas: JRA1 Status Cooling for Sensor Boxes and DUT Cold Gas System : +170°C …-180°C (N2-Stream Temperature Accuracy ±0,1°C) Liquefier 1 Liquefier 2 -Large area for evaporator needed  Increases Size of sensor box -2 systems needed between -40°C and +10°C -Slow and complex regulation +No danger ±Standard Components except evaporator Evaporation Cooling Based on R404ARegulated Cold N2 Gas System -Expensive -Safety regulations required +Quick+Precise +Wide range of temperature +DUT cooling possible with the same device 2X! Carsten Muhl

Full simulation: Mokka (based on Geant 4) and MySQL database Full simulation: Mokka (based on Geant 4) and MySQL database Output: LCIO format files Output: LCIO format files Stored information: hit position, deposited energy,... Stored information: hit position, deposited energy,... Analysis: Marlin and Root Analysis: Marlin and Root Simulated events Simulated events Assumed telescope plane intrinsic resolution – 3 um (hit positions are smeared) Assumed telescope plane intrinsic resolution – 3 um (hit positions are smeared) ILC Software Tools Symmetric geometry Asymmetric geometry Telescope Simulations Tatsiana Klimkovich

11 September 2006Tobias Haas: JRA1 Status Validation For small scattering angle Gaussian approximation is used for the width of the projected angular distribution: For small scattering angle Gaussian approximation is used for the width of the projected angular distribution: To check the validity of MS description Simulate silicon wafer of 300 um thickness Simulate silicon wafer of 300 um thickness Shoot 1 GeV electrons ( events) Shoot 1 GeV electrons ( events) Look at the projection of scattering angles Look at the projection of scattering angles Theory prediction: mrad Theory prediction: mrad Tatsiana Klimkovich

11 September 2006Tobias Haas: JRA1 Status First results Comparison of new simulation (Mokka) with Prague simulation (Geant 4) for 6 plane symmetric geometry Comparison of different geometries (Mokka simulation, after cuts on chi2 and track slope): Tatsiana Klimkovich

11 September 2006Tobias Haas: JRA1 Status Precision Studies Analytical Method Analytical Method Includes multiple scattering Includes multiple scattering Piece-wise linear track fit Piece-wise linear track fit Goals: Goals: Cross check simulation Optimize geometry Guidance for the design Understand future analysis challenges Filip Zarnecki

11 September 2006Tobias Haas: JRA1 Status Precision Studies: Results Planned Precision can be reached! Wide choice of geometry configurations are needed depending of DUT details Filip Zarnecki

11 September 2006Tobias Haas: JRA1 Status Mimostar2 – Temperature Scan Simple setup with Strasbourg hardware to do pedestal and source measurements Simple setup with Strasbourg hardware to do pedestal and source measurements Also source measurements were done (Fe55) Also source measurements were done (Fe55) Cooling keeps Mimostar2 at constant temperature Cooling keeps Mimostar2 at constant temperature Temperature Sensor inside cooling box Temperature Sensor inside cooling box Lukasz Maczewski

11 September 2006Tobias Haas: JRA1 Status Pedestal and Noise Distribution Measurements done at 21 o C Measurements done at 21 o C Pedestal is distributed around 0 ADC Pedestal is distributed around 0 ADC Noise in the matrix with the radiation tolerant pixels is higher than in the matrix with the standard pixels Noise in the matrix with the radiation tolerant pixels is higher than in the matrix with the standard pixels Lukasz Maczewski

11 September 2006Tobias Haas: JRA1 Status Temperature Dependence Fit included the energy gap as a third fit parameter Fit included the energy gap as a third fit parameter Energy gaps from this fit: Eg=2.38eV Standard Pixels Energy gaps from this fit: Eg=2.38eV Standard Pixels Eg=2.55eV Rad. Tol. Pixels Eg=2.55eV Rad. Tol. Pixels Standard Pixels Lukasz Maczewski

11 September 2006Tobias Haas: JRA1 Status EU Personnel DESY: DESY: Julia Fourletova, postdoc (7/27) Julia Fourletova, postdoc (7/27) Geneva: Geneva: Emlyn Corrin, postdoc (7/1) Emlyn Corrin, postdoc (7/1) Bonn Bonn Lars Reuen, student (1/1) Lars Reuen, student (1/1) MPI MPI Stefan Rummel, student (2/15) Stefan Rummel, student (2/15) CERN CERN Jerome Alozy, student (9/1)

11 September 2006Tobias Haas: JRA1 Status Finances Geneva Geneva Received: CHF Received: CHF Spent (28 Aug) CHF Spent (28 Aug) CHF Extrapol. Pers CHF Extrapol. Pers CHF Extrapol. Goods CHF Extrapol. Goods CHF CNRS-IRES CNRS-IRES Received: € Received: € Spent (11 Sep)0 € Spent (11 Sep)0 € MPI MPI Received € Received € Spent (11 Sep) € Spent (11 Sep) € Extrapol. Pers € Extrapol. Pers € DESY DESY Received: € Received: € Spent (28 Aug)9.344 € Spent (28 Aug)9.344 € Extrapol. Pers € Extrapol. Pers € Extrapol. Goods € Extrapol. Goods € CERN CERN Received: CHF Received: CHF Spent (11 Sep):0 CHF Spent (11 Sep):0 CHF Extrapol. Pers CHF Extrapol. Pers CHF Extrapol. Goods0 CHF Extrapol. Goods0 CHF UBonn UBonn Received: € Received: € Spent (11 Sep) € Spent (11 Sep) € Extrapol. Pers € Extrapol. Pers € Extrapol. Goods6.000 € Extrapol. Goods6.000 € UMa UMa Received: € Received: € INFN INFN Received: € Received: € UBristol UBristol Received: € Received: € CEA CEA Received: € Received: € Info available: