Lattice QCD and Nuclear Physics
by Sinya Aoki
Publisher: arXiv.org 2010
Number of pages: 61
From the table of contents: Intorduction - Nuclear Forces; Phase Shift from Lattice QCD - Luescher's formula in the finite volume; Nuclear Potential from Lattice QCD; Repulsive core and operator product expansion in QCD; Concluding Remarks.
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by Niels Walet - UMIST
In these lecture notes the author shall discuss nuclear and particle physics on a somewhat phenomenological level. The mathematical sophistication shall be rather limited, with an emphasis on the physics and on symmetry aspects.
by John M. Blatt, Victor F. Weisskopf - Wiley
A clear and cogent investigation of key aspects of theoretical nuclear physics by leading experts: the nucleus, nuclear forces, nuclear spectroscopy, two-, three- and four-body problems, nuclear reactions, beta-decay and nuclear shell structure.
by J. Pearson - University of Manchester
From the table of contents: Basic Terminology; Nuclear Properties; Nuclear Models; Collective Excitations (Nuclear Vibrations, Nuclear Rotations); Alpha-decay (Fine Structure of alpha-decay); Beta-decay; Gamma-ray Emission; and more.
by Joseph P. Hornak - Rochester Institute of Technology
Nuclear magnetic resonance, or NMR as it is abbreviated by scientists, is a phenomenon which occurs when the nuclei of certain atoms are immersed in a static magnetic field and exposed to a second oscillating magnetic field.