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Table of Contents
Intro; Supervisor's Foreword; Abstract; Preface; Acknowledgements; Contents; 1 Introduction; 1.1 Complete Fusion Suppression; 1.2 Cosmological Lithium Problem; 1.3 Aims; 1.4 Thesis Outline; References; 2 Background Concepts; 2.1 Nucleus-Nucleus Potentials; 2.2 Reaction Outcomes; 2.2.1 Elastic Scattering; 2.2.2 Inelastic Scattering; 2.2.3 Transfer and Breakup; 2.2.4 Incomplete Fusion; 2.2.5 Complete Fusion; 2.3 Cross-Sections; 2.3.1 Rutherford Scattering Cross-Sections; 2.4 Importance of the Nuclear Structure of Light Weakly-Bound Nuclei; 2.5 Nuclear Structure of Light Weakly-Bound Nuclei
2.9.2 Classical Dynamical Models: PLATYPUS, KOOKABURRA2.9.3 Using Classical Models of Breakup to Map Experimental Observables to ``Unobservables''; 2.10 Summary; References; 3 Experimental Methods; 3.1 Beam Production; 3.2 Targets; 3.3 Experimental Apparatus: The ANU BALiN Array; 3.3.1 Detector Configurations; 3.3.2 Time of Flight; 3.3.3 Electronic Processing; 3.4 Analysis Procedure; 3.4.1 Position Sensitivity; 3.4.2 Precision Determination of Spatial Positioning of Array; 3.4.3 Energy Loss Correction; 3.4.4 Energy Calibration; 3.4.5 Pixel Identification
3.4.6 Particle Identification Using Time of Flight3.4.7 Deadtime; 3.5 Summary; References; 4 Identifying Breakup Modes; 4.1 Identification and Removal of Spurious Coincidence Events; 4.1.1 Elastic-X Coincidences; 4.1.2 Cross-Talk; 4.2 Identification of Breakup Modes; 4.2.1 Q-Value Against Erel; 4.2.2 Time of Flight; 4.3 Removal of Breakup Originating from Interactions with Target Impurities; 4.4 Breakup after Interactions of 7Li with Targets 13leq Zleq 28; 4.4.1 58Ni; 4.4.2 28Si; 4.4.3 27Al; 4.4.4 Rare Coincidence Modes; 4.4.5 Q-Value and Erel Resolution
4.5 Breakup After Interactions of 9Be with 28Si and 27Al4.5.1 Rare Coincidence Modes; 4.6 Breakup After Interactions of 9Be with Targets 62leqZleq83; 4.6.1 Breakup in Interactions of 9Be with 208Pb and 209Bi; 4.7 Breakup in Interactions of 9Be and 7Li with 12C and 16O; 4.7.1 9Be + 12C; 4.7.2 7Li + 12C; 4.7.3 7Li + 16O; 4.8 Summary; References; 5 Examining Breakup Mechanisms; 5.1 Separating Near-Target and Asymptotic Breakup Using Relative Energy; 5.2 Orientation of the Relative Momentum of Breakup Fragments; 5.3 Signatures of Breakup Before and After the Distance of Closest Approach
2.9.2 Classical Dynamical Models: PLATYPUS, KOOKABURRA2.9.3 Using Classical Models of Breakup to Map Experimental Observables to ``Unobservables''; 2.10 Summary; References; 3 Experimental Methods; 3.1 Beam Production; 3.2 Targets; 3.3 Experimental Apparatus: The ANU BALiN Array; 3.3.1 Detector Configurations; 3.3.2 Time of Flight; 3.3.3 Electronic Processing; 3.4 Analysis Procedure; 3.4.1 Position Sensitivity; 3.4.2 Precision Determination of Spatial Positioning of Array; 3.4.3 Energy Loss Correction; 3.4.4 Energy Calibration; 3.4.5 Pixel Identification
3.4.6 Particle Identification Using Time of Flight3.4.7 Deadtime; 3.5 Summary; References; 4 Identifying Breakup Modes; 4.1 Identification and Removal of Spurious Coincidence Events; 4.1.1 Elastic-X Coincidences; 4.1.2 Cross-Talk; 4.2 Identification of Breakup Modes; 4.2.1 Q-Value Against Erel; 4.2.2 Time of Flight; 4.3 Removal of Breakup Originating from Interactions with Target Impurities; 4.4 Breakup after Interactions of 7Li with Targets 13leq Zleq 28; 4.4.1 58Ni; 4.4.2 28Si; 4.4.3 27Al; 4.4.4 Rare Coincidence Modes; 4.4.5 Q-Value and Erel Resolution
4.5 Breakup After Interactions of 9Be with 28Si and 27Al4.5.1 Rare Coincidence Modes; 4.6 Breakup After Interactions of 9Be with Targets 62leqZleq83; 4.6.1 Breakup in Interactions of 9Be with 208Pb and 209Bi; 4.7 Breakup in Interactions of 9Be and 7Li with 12C and 16O; 4.7.1 9Be + 12C; 4.7.2 7Li + 12C; 4.7.3 7Li + 16O; 4.8 Summary; References; 5 Examining Breakup Mechanisms; 5.1 Separating Near-Target and Asymptotic Breakup Using Relative Energy; 5.2 Orientation of the Relative Momentum of Breakup Fragments; 5.3 Signatures of Breakup Before and After the Distance of Closest Approach