Reformulation of the Schrodinger equation .: " . 2.2. Basis wave functions in cluster representation 2.3. Derivation of coupled equations a. Single-channel calculation without specific distortion 9 b. Single-channel calculation with specific distortion c. Coupled-channel calculation 20 3. Complex-generator-coordinate technique 3.1. General remarks 3.2. Description of the complex-generator-coordinate-technique 3.3. Special case-cluster internal functions in harmonic-oscillator shell-model representation 3.4. Redundant-solution test 4. Bound-state, scattering, and reaction calculations 4.1. Bound-and resonance-state calculations 17 18 19 20 a. Cluster states in 0, F, F, and Ne 12 b. 30(. cluster structure of C .. 4.2. Scattering calculations 16 a. Scattering of light ions by 0 -:, b. oc + c< scattering with specific-distortion effect 4.3. Reaction calculations 61 a. 3He(d,p)4He reaction 61 b. 4He(d,t)3He reaction 2-fo DISTRIE UTIr,N 017 miS DOCOM ENTIS UNLUDT ED iii 5. Effects of the Pauli principle 5.1. Introductory remarks 5.2. Effective internuclear potential a. Odd-even 1 -dependence and channel -spin dependence 68 b. General discussion 5.3. Direct-reaction mechanisms a. Brief description of the method of analysis b. Result and discussion 5.4. Concluding remarks 6. Conclusion 90
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