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Angular Momentum in Quantum Mechanics
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TLDR
In this article, the angular momentum, one of the most fundamental quantities in all of quantum mechanics, is introduced and a concise introduction to its application in atomic, molecular, and nuclear physics is provided.Abstract:
This book offers a concise introduction to the angular momentum, one of the most fundamental quantities in all of quantum mechanics. Beginning with the quantization of angular momentum, spin angular momentum, and the orbital angular momentum, the author goes on to discuss the Clebsch-Gordan coefficients for a two-component system. After developing the necessary mathematics, specifically spherical tensors and tensor operators, the author then investigates the 3-j, 6-j, and 9-j symbols. Throughout, the author provides practical applications to atomic, molecular, and nuclear physics. These include partial-wave expansions, the emission and absorption of particles, the proton and electron quadrupole moment, matrix element calculation in practice, and the properties of the symmetrical top molecule.read more
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Approximate Electromagnetic Transition Probabilities and Relative Electron Excitation Cross Sections for Rare‐Gas Masers
H. Statz,C. L. Tang,G. F. Koster +2 more
TL;DR: In this article, numerical values for the electromagnetic transition probabilities for a large number of rare-gas maser lines are calculated and tabulated for assisting in the evaluation of existing and new gaseous masers as well as for other applications such as work in astrophysics.
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A new numerical procedure for the construction of orthonormal hyperspherical functions
TL;DR: In this article, a method for the numerical solution of the grand angular momentum eigenvalue problem arising in quantum mechanics of three particles is discussed, which can be used for any angular momentum and is easily vectorizable.
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Casimir energy and a cosmological bounce
TL;DR: In this paper, the renormalized energy-momentum tensor tensor of a quantized scalar field in an Einstein static universe was studied and its equivalence for conformally coupled and minimally coupled massless scalar fields was discussed.
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Semiclassical Methods in Inelastic Scattering
TL;DR: In this paper, a hierarchy of related semiclassical approximations for treating molecular inelastic scattering is derived, starting from the coupled Schrodinger equations of motion, the radial wavefunctions are expressed as ui(r)
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Resonance structures in elastic and Raman scattering from microspheres
TL;DR: To study the interactions between Mie scattering and Raman emissions of spherical particles, the Raman spectra were measured together with the elastically scattered light of the excitation source of an evaporating aqueous sodium nitrate droplet and low order Mie resonances were used to explain the data.