We present the first test of the application of the parallel plate chamber principles for the design of a very fast and radiation-hard iron/gas sampling calorimeter, suitable for very forward regions in detectors for LHC, based on the use of thick iron plates as electrodes. We have built a one cell prototype consisting of three parallel thick iron plates (17 mm each). Results on efficiencies and mean collected charge for minimum ionizing particles with different gases are presented.
Performance of A Parallel-plate Volume Cell Prototype For A Fast Iron Gas Calorimeter / Bizzeti, Andrea; C., Civinini; R., Dalessandro; A., Ferrando; A., Malinin; L., Martinezlaso; V., Pojidaev. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 335:(1993), pp. 102-105. [10.1016/0168-9002(93)90260-O]
Performance of A Parallel-plate Volume Cell Prototype For A Fast Iron Gas Calorimeter
BIZZETI, Andrea;
1993
Abstract
We present the first test of the application of the parallel plate chamber principles for the design of a very fast and radiation-hard iron/gas sampling calorimeter, suitable for very forward regions in detectors for LHC, based on the use of thick iron plates as electrodes. We have built a one cell prototype consisting of three parallel thick iron plates (17 mm each). Results on efficiencies and mean collected charge for minimum ionizing particles with different gases are presented.
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