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Martyn, H.U.; Zhou Jianfeng.
Technische Hochschule Aachen (Germany, F.R.). Lehrstuhl fuer Experimentalphysik 1A und 1. Physikalisches Inst1986
Technische Hochschule Aachen (Germany, F.R.). Lehrstuhl fuer Experimentalphysik 1A und 1. Physikalisches Inst1986
AbstractAbstract
[en] Monte Carlo simulations of a uranium calorimeter with proportional chamber readout using the GHEISHA code are presented and compared with measurements. In particular the influence of different gas mixtures on the relative electron/pion response and the energy resolution is discussed. It is found that the contribution of uranium fission products to the pion signal is only a few percent in gases without hydrogen. By adding hydrocarbons to the gas mixture the pion response may be enhanced only moderately at the expense of the energy resolution. (orig.)
Source
19 Aug 1986; 21 p
Record Type
Report
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Country of publication
ARGON, BINARY MIXTURES, BUTANE, CALORIMETERS, CARBON DIOXIDE, CASCADE SHOWERS, COMPUTERIZED SIMULATION, ELECTRON DETECTION, ENERGY DEPENDENCE, ENERGY LOSSES, ENERGY RESOLUTION, G CODES, GEV RANGE 01-10, MONTE CARLO METHOD, PION DETECTION, PROPORTIONAL COUNTERS, READOUT SYSTEMS, RELATIVISTIC RANGE, RESPONSE FUNCTIONS, SHOWER COUNTERS, URANIUM
ACTINIDES, ALKANES, CARBON COMPOUNDS, CARBON OXIDES, CHALCOGENIDES, CHARGED PARTICLE DETECTION, COMPUTER CODES, DETECTION, DISPERSIONS, ELEMENTS, ENERGY RANGE, FUNCTIONS, GEV RANGE, HYDROCARBONS, MEASURING INSTRUMENTS, METALS, MIXTURES, NONMETALS, ORGANIC COMPOUNDS, OXIDES, OXYGEN COMPOUNDS, RADIATION DETECTION, RADIATION DETECTORS, RARE GASES, RESOLUTION, SHOWERS, SIMULATION
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