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Status of Development on Silicon Telescope For Nanodosimetry

This update outlines the progress on creating a Silicon Telescope for Nanodosimetry at the Santa Cruz Institute for Particle Physics, University of California, Santa Cruz. It includes details on mechanical and electronic integration, components of the telescope module, minimizing errors, GLAST tracker, wire bonding, and more. The document also highlights key considerations like spatial conflict, out-gassing, and pressure issues, along with suggestions for avoiding errors and ensuring accuracy in the project.

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Status of Development on Silicon Telescope For Nanodosimetry

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  1. Status of Development on Silicon Telescope For Nanodosimetry Santa Cruz Institute For Particle Physics University of California, Santa Cruz

  2. Definition of Work • Mechanical Integration: • ASIC’s on MCM’s • Connector on MCM • SSD’s and MCM’s • Modules in Vessel • Electronic Integration: • Layout of MCM • Link Between Module and SSD • Link Between Module and DAQ • Cables and Connectors

  3. Components of Telescope

  4. Components of Telescope

  5. Module Frame

  6. Module Overview .8 2.7 PCB 10cm 9.1 6.4

  7. Components of Telescope

  8. GLAST Tracker

  9. Wire Bonding

  10. One Detector

  11. LLU MCM 2560 mil 6.5 cm 1375 mil 3.5 cm

  12. Components of Telescope

  13. Cable Vessel/DAQ Front Board Back Board

  14. Minimizing Errors • Mechanical errors • Spatial conflict • Out-gassing • Pressure(explosion/implosion) • Data errors • Use Identical DAQ • Test MCM with charge injection

  15. Minimizing Errors • Avoid Mechanical errors • Spatial conflict • Out-gassing • Pressure(explosion/implosion) • How big do ventilation holes need to be? • Avoid hardware errors • Use Identical DAQ • Test MCM with charge injection

  16. = Air Hole

  17. Minimizing Errors • Calibration/ Readout Errors • Patrick will discuss this subject

  18. Schedule

  19. Schedule

  20. Schedule

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