A prototype module of an iron-gas sampling calorimeter based on parallel-plate chambers, full-size depth has been tested using high-energy muons, electrons and pions. The module was equipped with more than 1000 active cells read out individually. Experimental measurements at the test beam and their comparison with Monte-Carlo simulations are presented, Expected performance for a calorimeter suitable for low-angle regions in LHC experiments are derived.
Performance of an iron/gas sampling calorimeter based on ceramic parallel-plate chambers / G. L., B., Bizzeti, A., C., C., F. D., S., R., D., A., F., M. C., F., A., I., V., I., M. I., J., A., K., A., M., L., M.L., M., M., V., P., J. M., S.. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 404:(1998), pp. 87-95. [10.1016/S0168-9002(97)01127-3]
Performance of an iron/gas sampling calorimeter based on ceramic parallel-plate chambers
BIZZETI, Andrea;
1998
Abstract
A prototype module of an iron-gas sampling calorimeter based on parallel-plate chambers, full-size depth has been tested using high-energy muons, electrons and pions. The module was equipped with more than 1000 active cells read out individually. Experimental measurements at the test beam and their comparison with Monte-Carlo simulations are presented, Expected performance for a calorimeter suitable for low-angle regions in LHC experiments are derived.
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