Study of Nuclear Structure by Electromagnetic Excitation with Accelerated Ions

About integer-valued variants of the theta and 6j symbols ⋮ Analytic Continuation of Appell's Hypergeometric Series F2 to the Vicinity of the Singular Point x = 1, y = 1 ⋮ Accurate evaluation of an integral involving the product of two Bessel functions and a Gaussian ⋮ Algorithms for SU(n) boson realizations and D-functions ⋮ Rapidly rotating nuclei as Riemann ellipsoids ⋮ Geometric quantization of the CM(3) model ⋮ Some Exact Radial Integrals for Dirac-Coulomb Functions ⋮ Rotations and Vibrations in Deformed Nuclei ⋮ Theory of the Trojan-Horse method. ⋮ Vacuum Polarization Effects in Proton-Proton Scattering ⋮ Connection between the Nuclear Shell Model and the Unified Model ⋮ Statistical derivation of the nuclear rotational energies ⋮ Moment of Inertia of Interacting Many-Body Fermion Systems ⋮ Single Particle Motion in a Deformed, Nonlocal Potential Well ⋮ Extension of the Shell Model for Heavy Spherical Nuclei ⋮ Ellipsoidal Distributions of Charge or Mass ⋮ Electron Scattering from a Quantized Liquid Drop ⋮ On the integration of the differential equations of five-parametric double-hypergeometric functions of second order ⋮ Isospin Selection Rules for High-Energy Electron Scattering ⋮ Particle Model of Scattering from Collective States of Nuclei ⋮ Nonadiabatic Theory of Electron-Hydrogen Scattering ⋮ An asymptotic expansion for the hypergeometric function F12(a,b;c;x) ⋮ Semiclassical Coulomb differential excitation function: Asymptotic expansions ⋮ Fast computation of the Gauss hypergeometric function with all its parameters complex with application to the Pöschl-Teller-Ginocchio potential wave functions ⋮ Nuclear Rotational Spectra, the Elliott Model, and the<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:msub><mml:mrow><mml:mi>P</mml:mi></mml:mrow><mml:mrow><mml:mn>2</mml:mn></mml:mrow></mml:msub></mml:mrow></mml:math>Force ⋮ A simple model of a system possessing rotational states ⋮ Collective rotations in nuclei ⋮ On the numerical evaluation of a class of integrals occurring in scattering problems ⋮ On the Brownian motion of deformable particles ⋮ ROTIONS: A program for the calculation of rotational excitation cross sections in electron-molecular ion collisions ⋮ Radial integrals in the Coulomb-Born approximation: Multipole transitions

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• Über einige bestimmte Integrale, in denen die Whittakerschen \(M_{k,m}\)- Funktionen auftreten
• Particle States in Spheroidal Nuclei
• On the description of collective motion by th use of superfluous co-ordinates
• Collective Modes in Nuclei
• Elementary Theory of Quantum-Mechanical Collective Motion of Particles, I
• Dynamics of Nuclear Deformation
• A Note on Sommerfeld's Bremsstrahlung Formula
• Ground-State Properties of Nonspherical Nuclei
• Surface Oscillations in Even-Even Nuclei
• Quantum Calculation of Coulomb Excitation. I
• Soluble Problem in the Theory of Coulomb Excitation
• Zur Bremsung rasch bewegter Teilchen beim Durchgang durch Materie
• The Mechanism of Nuclear Fission
• On the Directional Correlation of Successive Nuclear Radiations
• Nuclear Energy Level Argument for a Spheroidal Nuclear Model
• On the Quantization of Angular Momenta in Heavy Nuclei
• The Internal Conversion Coefficients. I: The<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mi>K</mml:mi></mml:math>-Shell
• The Factorization Method
• Nuclear Excitation by Electric Interaction with Charged Particles
• Nuclear Constitution and the Interpretation of Fission Phenomena
• Theory of Angular Correlation of Nuclear Radiations
• Nuclear Surface Oscillations
• The Energy Levels of Odd-Odd Nuclei
• Ingoing Waves in Final State of Scattering Problems
• The Odd-Nucleon-Plus-Liquid-Drop-Model of Heavy Odd Nuclei
• Some Physical Consequences of Vacuum Polarization
• Particle Derivation of Nuclear Rotation Properties Associated with a Surface Wave
• Nuclear Multipole Transitions in Inelastic Electron Scattering
• REDISTRIBUTION OF CLASSICAL AND QUANTUM DENSITIES
• Proton Bremsstrahlung