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| + | |||
| + | == PAPER OUTLINE: KAON AEROGEL CERENKOV DETECTOR == | ||
| + | |||
| + | === INTRODUCTION === | ||
| + | * Introduction to physics and infrastructure, i.e., spectrometers in Hall C | ||
| + | M* Cite other experiments (approved) that also require the detector? | ||
| + | |||
| + | === DESIGN CONSIDERATIONS === | ||
| + | * Experiment requirements and motivation for aerogel detector | ||
| + | * Design choices | ||
| + | ** threshold vs. RICH | ||
| + | ** box dimensions and PMT placement etc. | ||
| + | ** choice of aerogel radiators | ||
| + | ** impact on other detectors, e.g., delta electrons | ||
| + | |||
| + | === CONSTRUCTION AND COUNTER LAYOUT === | ||
| + | * Details of the detector box and tray construction | ||
| + | ** Motivation and explanation of materials used in the construction, i.e., aluminum, honeycomb, etc. | ||
| + | ** Details on the fabrication and construction | ||
| + | ** Construction of a frame to hold aerogel in center of box for cases where box not entirely filled | ||
| + | * Short description of detector components | ||
| + | ** Choice of reflective materials, wires to hold aerogel, etc. | ||
| + | ** Aerogel used, i.e., manufacturer | ||
| + | ** PMTs (geometry, properties, details on their installation in detector, i.e., magnetic shielding, aluminum cylinders etc.) | ||
| + | * Construction of a single counter (Prototype) and tests performed with it | ||
| + | |||
| + | === AEROGEL STUDIES === | ||
| + | * Characterization of aerogel tiles | ||
| + | ** Variation of dimensions and refractive index tile-to-tile and batch-to-batch | ||
| + | ** Optical measurements (transmittance etc.) | ||
| + | ** Photon Yield | ||
| + | |||
| + | === PHOTOMULTIPLIER TUBES STUDIES === | ||
| + | * Measurements of quantum efficiency and photocathode uniformity | ||
| + | |||
| + | === MC SIMULATIONS === | ||
| + | * Description of the simulation(s) performed, e.g., | ||
| + | ** predictions of photoelectron signal | ||
| + | ** uniformity of signal | ||
| + | ** average number of PMTs that trigger per event | ||
| + | ** timing resolution of detector | ||
| + | * Light collection efficiency | ||
| + | |||
| + | === PERFORMANCE === | ||
| + | * Results from cosmic measurements | ||
| + | |||
| + | === SUMMARY AND OUTLOOK === | ||
| + | M* Possibility of improvements: | ||
| + | M* - additional tray with even lower refractive index (when material becomes available) | ||
Revision as of 16:25, 8 July 2013
| ⇐ Back to the Main_Page |
PAPER OUTLINE: KAON AEROGEL CERENKOV DETECTOR
INTRODUCTION
- Introduction to physics and infrastructure, i.e., spectrometers in Hall C
M* Cite other experiments (approved) that also require the detector?
DESIGN CONSIDERATIONS
- Experiment requirements and motivation for aerogel detector
- Design choices
** threshold vs. RICH ** box dimensions and PMT placement etc. ** choice of aerogel radiators ** impact on other detectors, e.g., delta electrons
CONSTRUCTION AND COUNTER LAYOUT
- Details of the detector box and tray construction
** Motivation and explanation of materials used in the construction, i.e., aluminum, honeycomb, etc. ** Details on the fabrication and construction ** Construction of a frame to hold aerogel in center of box for cases where box not entirely filled
- Short description of detector components
** Choice of reflective materials, wires to hold aerogel, etc. ** Aerogel used, i.e., manufacturer ** PMTs (geometry, properties, details on their installation in detector, i.e., magnetic shielding, aluminum cylinders etc.)
- Construction of a single counter (Prototype) and tests performed with it
AEROGEL STUDIES
- Characterization of aerogel tiles
** Variation of dimensions and refractive index tile-to-tile and batch-to-batch ** Optical measurements (transmittance etc.) ** Photon Yield
PHOTOMULTIPLIER TUBES STUDIES
- Measurements of quantum efficiency and photocathode uniformity
MC SIMULATIONS
- Description of the simulation(s) performed, e.g.,
** predictions of photoelectron signal ** uniformity of signal ** average number of PMTs that trigger per event ** timing resolution of detector
- Light collection efficiency
PERFORMANCE
- Results from cosmic measurements
SUMMARY AND OUTLOOK
M* Possibility of improvements: M* - additional tray with even lower refractive index (when material becomes available)