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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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Electronic structure and optical properties of quantum rods with wurtzite structure
TL;DR: In this paper, the Hamiltonian of the wurtzite quantum rods with an ellipsoidal boundary is given after a coordinate transformation, and the energies, wave functions, and transition possibilities are obtained as functions of the aspect ratio e with the same method used on spherical dots.
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ESR Line Shapes for Triplets Undergoing Slow Rotational Reorientation
TL;DR: In this paper, the stochastic Liouville method is applied to analyze the general problem of unsaturated ESR line shapes for triplets undergoing rotational diffusion, and detailed line shape simulations are obtained for the cases of high, low, and zero-field resonance, large or small values of an axially symmetric zero field splitting, and slow through fast ESR diffusion.
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Evaluation of theoretical models for elastic electron backscattering from surfaces
TL;DR: In this paper, a critical review of the current status of theoretical models to describe the elastic electron backscattering phenomenon is presented, and particular stress is put on determination of the accuracy and range of validity of various analytical models by comparison to extensive Monte Carlo simulations.
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Dicke model and the theory of driven and spontaneous emission
C. Leonardi,F. Persico,G. Vetri +2 more
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Interfacial effects on droplet dynamics in Poiseuille flow
TL;DR: In this paper, isolated spherical drops in a Poiseuille flow are modeled as a linear equation of state for the surfactant and the model predicts slip, cross-stream migration and droplet-circulation velocities.