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Abdulaziz D. Alhaidari, Hashim A. Yamani, Eric J. Heller and Mohamed S. Abdelmonem
I-XVII
Front matter
3-46
Part I / Two of the Original Papers
3-17
New L2 Approach to Quantum Scattering: Theory
19-46
J-Matrix Method: Extensions to Arbitrary Angular Momentum and to Coulomb Scattering
49-134
Part II / Theoretical and Mathematical Considerations
49-66
Oscillator Basis in the J-Matrix Method: Convergence of Expansions, Asymptotics of Expansion Coefficients and Boundary Conditions
67-81
Scattering Phase Shift for Relativistic Separable Potentials with Laguerre-Type Form Factors
83-102
Accurate Evaluation of the S-Matrix for Multi-Channel Analytic and Non-Analytic Potentials in Complex L2 Bases
103-115
J-Matrix and Isolated States
117-134
On the Regularization in J-Matrix Methods
137-179
Part III / Applications in Atomic Physics
137-143
The J-Matrix Method: A Universal Approach to Description of Ionization of Atoms
145-171
J-Matrix Green’s Operators and Solving Faddeev Integral Equations for Coulombic Systems
173-179
The Use of a Complex Scaling Method to Calculate Resonance Partial Widths
183-307
Part IV / Applications in Nuclear Physics
183-217
J-Matrix Approach to Loosely-Bound Three-Body Nuclear Systems
219-268
Nucleon–Nucleon Interaction in the J-Matrix Inverse Scattering Approach and Few-Nucleon Systems
269-307
The Modified J-Matrix Approach for Cluster Descriptions of Light Nuclei
311-343
Part V / Other Related Methods: Chemical Physics Application
A Generalized Formulation of Density Functional Theory with Auxiliary Basis Sets
344-356
Back matter
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