Abstract
The hadronic final state in deep inelastic e{sup -} P collisions has been studied with the 1992 data from the ZEUS detector at HERA. The hadronic final state is described by event topology variables like thrust and sphericity and also by variables like multiplicity and transverse momentum. These quantities require the reconstruction of the particle four moments which are calculated from calorimeter cell clusters (condensates). A detailed Monte-Carlo comparison between final state particles and condensates is presented. ZEUS data and model predictions are compared in the {gamma}{sup *} P system. Good agreement between data and models is found in the x-Feynman and transverse momentum spectra and in the seagull plot. Mean thrust and sphericity are measured as functions of the invariant mass W of the hadronic final state. They significantly deviate from the model predictions, as do the mean multiplicities, which exceed the model predictions by about 1 unit. (orig.)
Citation Formats
Schneider, J L.
The hadronic final state in the deep inelastic electron-proton scattering. A comparison between the ZEUS data measured 1992 and theoretical models; Der hadronische Endzustand in der tiefinelastischen Elektron-Proton-Streuung. Ein Vergleich zwischen den 1992 gemessenen ZEUS-Daten und theoretischen Modellen.
Germany: N. p.,
1993.
Web.
Schneider, J L.
The hadronic final state in the deep inelastic electron-proton scattering. A comparison between the ZEUS data measured 1992 and theoretical models; Der hadronische Endzustand in der tiefinelastischen Elektron-Proton-Streuung. Ein Vergleich zwischen den 1992 gemessenen ZEUS-Daten und theoretischen Modellen.
Germany.
Schneider, J L.
1993.
"The hadronic final state in the deep inelastic electron-proton scattering. A comparison between the ZEUS data measured 1992 and theoretical models; Der hadronische Endzustand in der tiefinelastischen Elektron-Proton-Streuung. Ein Vergleich zwischen den 1992 gemessenen ZEUS-Daten und theoretischen Modellen."
Germany.
@misc{etde_10153492,
title = {The hadronic final state in the deep inelastic electron-proton scattering. A comparison between the ZEUS data measured 1992 and theoretical models; Der hadronische Endzustand in der tiefinelastischen Elektron-Proton-Streuung. Ein Vergleich zwischen den 1992 gemessenen ZEUS-Daten und theoretischen Modellen}
author = {Schneider, J L}
abstractNote = {The hadronic final state in deep inelastic e{sup -} P collisions has been studied with the 1992 data from the ZEUS detector at HERA. The hadronic final state is described by event topology variables like thrust and sphericity and also by variables like multiplicity and transverse momentum. These quantities require the reconstruction of the particle four moments which are calculated from calorimeter cell clusters (condensates). A detailed Monte-Carlo comparison between final state particles and condensates is presented. ZEUS data and model predictions are compared in the {gamma}{sup *} P system. Good agreement between data and models is found in the x-Feynman and transverse momentum spectra and in the seagull plot. Mean thrust and sphericity are measured as functions of the invariant mass W of the hadronic final state. They significantly deviate from the model predictions, as do the mean multiplicities, which exceed the model predictions by about 1 unit. (orig.)}
place = {Germany}
year = {1993}
month = {Dec}
}
title = {The hadronic final state in the deep inelastic electron-proton scattering. A comparison between the ZEUS data measured 1992 and theoretical models; Der hadronische Endzustand in der tiefinelastischen Elektron-Proton-Streuung. Ein Vergleich zwischen den 1992 gemessenen ZEUS-Daten und theoretischen Modellen}
author = {Schneider, J L}
abstractNote = {The hadronic final state in deep inelastic e{sup -} P collisions has been studied with the 1992 data from the ZEUS detector at HERA. The hadronic final state is described by event topology variables like thrust and sphericity and also by variables like multiplicity and transverse momentum. These quantities require the reconstruction of the particle four moments which are calculated from calorimeter cell clusters (condensates). A detailed Monte-Carlo comparison between final state particles and condensates is presented. ZEUS data and model predictions are compared in the {gamma}{sup *} P system. Good agreement between data and models is found in the x-Feynman and transverse momentum spectra and in the seagull plot. Mean thrust and sphericity are measured as functions of the invariant mass W of the hadronic final state. They significantly deviate from the model predictions, as do the mean multiplicities, which exceed the model predictions by about 1 unit. (orig.)}
place = {Germany}
year = {1993}
month = {Dec}
}