Abstract
The specific aspects related to the discrete structure of the scintillating fibre electromagnetic calorimeter are investigated by means of Monte-Carlo simulation. It is shown that the structure inhomogeneity leads to an additional contribution to the systematic term in the energy resolution parametrization formula which weakly depends on energy and to the distortion of the Gaussian form of response distribution. The investigation was carried out for small tilt angles and for the absorber-to-fibre ratio 4:1 10 refs., 7 refs., 2 tabs.
Stavina, P;
Tokar, S;
[1]
Budagov, Yu A;
[2]
Chirikov-Zorin, I;
Pantea, D
[3]
- Department of Nuclear Physics, Comenius University, Bratislava (Slovak Republic)
- Joint Institute for Nuclear Research, Dubna (Russian Federation)
- Institute of Atomic Physics, Bucharest (Romania)
Citation Formats
Stavina, P, Tokar, S, Budagov, Yu A, Chirikov-Zorin, I, and Pantea, D.
Influence of inhomogeneities in scintillating fibre electromagnetic calorimeter on its energy resolution.
JINR: N. p.,
1998.
Web.
Stavina, P, Tokar, S, Budagov, Yu A, Chirikov-Zorin, I, & Pantea, D.
Influence of inhomogeneities in scintillating fibre electromagnetic calorimeter on its energy resolution.
JINR.
Stavina, P, Tokar, S, Budagov, Yu A, Chirikov-Zorin, I, and Pantea, D.
1998.
"Influence of inhomogeneities in scintillating fibre electromagnetic calorimeter on its energy resolution."
JINR.
@misc{etde_671182,
title = {Influence of inhomogeneities in scintillating fibre electromagnetic calorimeter on its energy resolution}
author = {Stavina, P, Tokar, S, Budagov, Yu A, Chirikov-Zorin, I, and Pantea, D}
abstractNote = {The specific aspects related to the discrete structure of the scintillating fibre electromagnetic calorimeter are investigated by means of Monte-Carlo simulation. It is shown that the structure inhomogeneity leads to an additional contribution to the systematic term in the energy resolution parametrization formula which weakly depends on energy and to the distortion of the Gaussian form of response distribution. The investigation was carried out for small tilt angles and for the absorber-to-fibre ratio 4:1 10 refs., 7 refs., 2 tabs.}
place = {JINR}
year = {1998}
month = {Dec}
}
title = {Influence of inhomogeneities in scintillating fibre electromagnetic calorimeter on its energy resolution}
author = {Stavina, P, Tokar, S, Budagov, Yu A, Chirikov-Zorin, I, and Pantea, D}
abstractNote = {The specific aspects related to the discrete structure of the scintillating fibre electromagnetic calorimeter are investigated by means of Monte-Carlo simulation. It is shown that the structure inhomogeneity leads to an additional contribution to the systematic term in the energy resolution parametrization formula which weakly depends on energy and to the distortion of the Gaussian form of response distribution. The investigation was carried out for small tilt angles and for the absorber-to-fibre ratio 4:1 10 refs., 7 refs., 2 tabs.}
place = {JINR}
year = {1998}
month = {Dec}
}