You need JavaScript to view this

Nuclear fragmentation in central collisions: Ni + Au from 32 to 90 A*MeV; Fragmentation dans les collisions centrales du systeme Ni + Au de 32 a 90 A MeV

Abstract

Heavy ion collisions are one of tools for studying nuclear system far away from its equilibrium state. This work concerns the most violent collisions in the Ni + Au system for incident energies ranging from 32 up to 90 AMeV. These events were detected with the multidetector INDRA and selected by the Principal Component Analysis (multidimensional analysis). This method classifies the events according their detection features and their degree of dissipation. We observed two deexcitation mechanisms: a fusion/fission - evaporation process and a multifragmentation process. Those two coexist from 32 to 52 AMeV whereas only one subsists at 90 AMeV. For those two mechanisms, an component was observed which seems to be linked to the initial phase of the reaction. The energy fluctuations of this component leads to variations in the energy deposit which determines the deexcitation of the system. The experimental multifragmentation data of the Ni + Au system (52 and 90 AMeV) were compared to the predictions of a statistical model and to the experimental data of the system Xe + Sn at 50 AMeV (also detected with INDRA). These comparisons show the lack of collective radial energy for fragments (Z{>=}10) in the Ni + Au system, and  More>>
Authors:
Publication Date:
Nov 03, 2000
Product Type:
Thesis/Dissertation
Report Number:
FRNC-TH-4767
Reference Number:
EDB-01:031754
Resource Relation:
Other Information: TH: These constituants elementaires; 101 refs; PBD: 3 Nov 2000
Subject:
73 NUCLEAR PHYSICS AND RADIATION PHYSICS; DEEP INELASTIC HEAVY ION REACTIONS; FOUR-PI DETECTORS; GEV RANGE 01-10; GOLD 197 TARGET; ION-ATOM COLLISIONS; MULTIPLE PRODUCTION; MULTIPLICITY; NICKEL 58 REACTIONS; NUCLEAR FRAGMENTATION; NUCLEAR FRAGMENTS; TOTAL CROSS SECTIONS
OSTI ID:
20147580
Research Organizations:
Caen Univ., 14 (France). Lab. de Physique Corpusculaire
Country of Origin:
France
Language:
French
Other Identifying Numbers:
TRN: FR0104982013490
Availability:
Available from INIS in electronic form
Submitting Site:
FRN
Size:
222 pages
Announcement Date:

Citation Formats

Bellaize, N. Nuclear fragmentation in central collisions: Ni + Au from 32 to 90 A*MeV; Fragmentation dans les collisions centrales du systeme Ni + Au de 32 a 90 A MeV. France: N. p., 2000. Web.
Bellaize, N. Nuclear fragmentation in central collisions: Ni + Au from 32 to 90 A*MeV; Fragmentation dans les collisions centrales du systeme Ni + Au de 32 a 90 A MeV. France.
Bellaize, N. 2000. "Nuclear fragmentation in central collisions: Ni + Au from 32 to 90 A*MeV; Fragmentation dans les collisions centrales du systeme Ni + Au de 32 a 90 A MeV." France.
@misc{etde_20147580,
title = {Nuclear fragmentation in central collisions: Ni + Au from 32 to 90 A*MeV; Fragmentation dans les collisions centrales du systeme Ni + Au de 32 a 90 A MeV}
author = {Bellaize, N}
abstractNote = {Heavy ion collisions are one of tools for studying nuclear system far away from its equilibrium state. This work concerns the most violent collisions in the Ni + Au system for incident energies ranging from 32 up to 90 AMeV. These events were detected with the multidetector INDRA and selected by the Principal Component Analysis (multidimensional analysis). This method classifies the events according their detection features and their degree of dissipation. We observed two deexcitation mechanisms: a fusion/fission - evaporation process and a multifragmentation process. Those two coexist from 32 to 52 AMeV whereas only one subsists at 90 AMeV. For those two mechanisms, an component was observed which seems to be linked to the initial phase of the reaction. The energy fluctuations of this component leads to variations in the energy deposit which determines the deexcitation of the system. The experimental multifragmentation data of the Ni + Au system (52 and 90 AMeV) were compared to the predictions of a statistical model and to the experimental data of the system Xe + Sn at 50 AMeV (also detected with INDRA). These comparisons show the lack of collective radial energy for fragments (Z{>=}10) in the Ni + Au system, and show that the degree of multifragmentation depends of the thermal excitation energy. Mean kinetic energies of particles and lights fragments (Z{>=}10) are larger in the Ni + Au system than the Xe + Sn system. This observation shows that these particles are more sensitive to the entrance channel for an asymmetric system than for a symmetric system (for the same number of nucleons). (author)}
place = {France}
year = {2000}
month = {Nov}
}