Abstract
A high speed and highly radiation-resistant barium fluoride crystal array is under development by the Caltech group in collaboration with the Brookhaven National Lab, the Shanghai Institute of Ceramics in China, the KEK in Japan and the AccSys Technology Inc. in California. The barium fluoride array will serve as a prototype for a high precision electromagnetic calorimeter at the SSC, which has a unique capability in detecting the Higgs particles in the mass region between 80 to 180 GeV. The research and development program involves 3 aspects: (1) production of barium fluoride crystals with very large size (800 cm3) and high radiation resistance (10 MRads); (2) development of a fast readout system with an optical and electrical suppression on the slow component; and (3) development of an effective precision calibration system based on radiative capture of a pulsed proton beam from an Radio Frequency Quadruploe accelerator on a calcium fluoride target.
Representing the team of H. Newman (Caltech), H. Ma, C. Woody (BNL), Z.Y. Wei, Z.W. Yin (SIC, China), T. Matsuda, F. Takasaki (KEK, Japan) and R. Hamm (AccSys , California).
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Zhu, Ry. (1990). A High Resolution Barium Fluoride Calorimeter. In: McAshan, M. (eds) Supercollider 2. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-3728-1_24
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