System size dependence in backward relativistic hadron production in pA and AA collisions

Badawy, B. M.

doi:10.1088/1674-1137/38/11/114001

Cited by 2 publications

(1 citation statement)

References 26 publications

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“…The pion source varies according to the energy, system size, centrality, and emission zone. Our lab group has concerned it [10,[16][17][18][19][20][24][25][26][27][28][29][30][31][32][33]. The present interactions are 3.7 A GeV 4 He, 16 O, and 32 S with emulsion nuclei.…”

Section: Introductionmentioning

confidence: 85%

System size dependence of final state hadron sources atE_lab= 3.7 A GeV

Abdelsalam

El–Nagdy

Badawy

et al. 2020

J. Phys. G: Nucl. Part. Phys.

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3.7 A GeV 4He, 16O, and 32S beams from Dubna Synchrophasotron interacting in nuclear emulsion are used. The final state hadrons are approached by the produced shower particles. The dependence on the system size is examined. The data are discriminated according to the emission in the forward and backward zones over the 4π space. Minimum biased samples of events corresponding to average impact parameters are selected randomly. The data are compared to a simulation based on the modified FRITIOF event generator, implementing the Lund model string dynamics. The multiplicity characteristics present an overview of the parameters obtained when the distributions are fitted by the multisource thermal model. The forward emitted shower particles are suggested to be created in hadronization system due to multisource superposition. The backward emitted ones mostly result from target nucleus decay source in the framework of the limiting fragmentation hypothesis. Empirical parameterizations based primarily on fitting procedures are undertaken to fulfill the universality of some uniform relationships. Systematic uncertainties are estimated in terms of standard deviation within errors.

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Section: Introductionmentioning

confidence: 85%

System size dependence of final state hadron sources atE_lab= 3.7 A GeV

Abdelsalam

El–Nagdy

Badawy

et al. 2020

J. Phys. G: Nucl. Part. Phys.

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Features about pion production in 2.1A and 3.7AGeV⁴He–nucleus interactions up to and out of kinematical limit

Abdelsalam

Badawy

Amer

et al. 2018

Int. J. Mod. Phys. E

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The shower particle multiplicity characteristics are studied in 2.1A and 3.7A GeV 4He interactions with emulsion nuclei. The dependencies on emission direction, energy, target size, and centrality are examined. The data are compared with the simulation of the modified FRITIOF model. The forward emitted pion multiplicity distributions exhibit KNO scaling. The decay or peaking shaped curves characterize the pion multiplicity distributions. The decay shape is suggested to be due to a single source contribution and the peaking one results from a multisource superposition. The forward emitted pion is created from fireball or hadronic matter. The target nucleus is the origin of the backward one, regarding the nuclear limiting fragmentation hypothesis.

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System size dependence in backward relativistic hadron production in pA and AA collisions

Cited by 2 publications

References 26 publications

System size dependence of final state hadron sources atE_lab= 3.7 A GeV

System size dependence of final state hadron sources atE_lab= 3.7 A GeV

Features about pion production in 2.1A and 3.7AGeV⁴He–nucleus interactions up to and out of kinematical limit

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System size dependence in backward relativistic hadron production in pA and AA collisions

Cited by 2 publications

References 26 publications

System size dependence of final state hadron sources atElab= 3.7 A GeV

System size dependence of final state hadron sources atElab= 3.7 A GeV

Features about pion production in 2.1A and 3.7AGeV4He–nucleus interactions up to and out of kinematical limit

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System size dependence of final state hadron sources atE_lab= 3.7 A GeV

System size dependence of final state hadron sources atE_lab= 3.7 A GeV

Features about pion production in 2.1A and 3.7AGeV⁴He–nucleus interactions up to and out of kinematical limit