eBook Proceedings of MEST 2012: Exponential Type Orbitals for Molecular Electronic Structure Theory, 1st Edition

  • Published By:
  • ISBN-10: 0124115594
  • ISBN-13: 9780124115590
  • DDC: 541.28
  • Grade Level Range: College Freshman - College Senior
  • 312 Pages | eBook
  • Original Copyright 2014 | Published/Released June 2014
  • This publication's content originally published in print form: 2014
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Advances in Quantum Chemistry presents surveys of current topics in this rapidly developing field that has emerged at the cross section of the historically established areas of mathematics, physics, chemistry, and biology. It features detailed reviews written by leading international researchers. This volume focuses on the theory of heavy ion physics in medicine.Advances in Quantum Chemistry presents surveys of current topics in this rapidly developing field and this volume focuses on the theory of heavy ion physics in medicine.

Table of Contents

Front Cover.
Half Title Page.
Editorial Board.
Title Page.
Copyright Page.
1: Exponential Type Orbitals.
2: Fully Correlated Wavefunctions for Three- and Four-Body Systems.
3: Electron and Electron-Pair Number and Momentum Densities for Low-Lying States of He, H–, and Li+.
4: A Basis Set Composed of Only 1s Slater Orbitals and 1s Gaussian Orbitals to Perform Molecular Calculations, SCF-LCAO Approach.
5: On a Transformation for the Electrostatic Potential, Generated by the Product of Two 1s Slater Type Orbitals, Giving an Efficient Expression.
6: d-Dimensional Kepler–Coulomb Sturmians and Hyperspherical Harmonics as Complete Orthonormal Atomic and Molecular Orbitals.
7: Fast Electron Repulsion Integrals for Molecular Coulomb Sturmians.
8: Three-Body Coulomb Problems with Generalized Sturmian Functions.
9: Further Improvements on ψ(α*)—ETOs with Hyperbolic Cosine Functions and Their Effectiveness in Atomic Calculations.
10: Reducing and Solving Electric Multipole Moment Integrals.
11: Recurrence Relations for Radial Parts of STOs and Evaluation of Overlap Integrals via the Fourier Transform Methods.
12: On the β–-Decay in the 8Li and 9Li Atoms.