1 Introduction 2 Electromagnetism in Quantum Mechanics 3
1 Introduction 2 Electromagnetism in Quantum Mechanics 3

Quantum Mathematics Table of Contents
Quantum Mathematics Table of Contents

Mechanical analogy for the wave-particle: helix on a vortex filament
Mechanical analogy for the wave-particle: helix on a vortex filament

Size, Shape, and Low Energy Electronic Structure of Carbon
Size, Shape, and Low Energy Electronic Structure of Carbon

1 On the derivation of wave function reduction from Schrödinger`s
1 On the derivation of wave function reduction from Schrödinger`s

... Organization and its mathematical framework The notion of organization is wide and well known, but it will be convenient to recall its meaning on a simple example, such as an ordinary mechanical clock. It is made of various pieces, wheels, springs, hands and so on, which can be distinguished by a la ...
Quantum graphs and the integer quantum Hall effect
Quantum graphs and the integer quantum Hall effect

Document
Document

... Huber Oliver ...
The non-equilibrium Green`s function method
The non-equilibrium Green`s function method

Nonlinear quantum mechanics, the superposition principle, and the
Nonlinear quantum mechanics, the superposition principle, and the

5 The Renormalization Group
5 The Renormalization Group

Time-dependent Born-series calculations of three-body scattering systems
Time-dependent Born-series calculations of three-body scattering systems

Charged null fluid and the weak energy condition
Charged null fluid and the weak energy condition

... in k" itself. A close inspection of the EOM at r = r, reveals that it has a critical point there, and just reads O = 0. Mathematically, there are two possible ways to continue the orbit there: it can either continue on its original ingoing null direction, or switch to the outgoing one. Which of the ...
Hagedorn: Molecular Propagation through Crossings and Avoided
Hagedorn: Molecular Propagation through Crossings and Avoided

spin-up
spin-up

... Conserved quantities – why we need them and how we find them In an ideal world in which we can write down the equations for all of the fundamental forces in all circumstances and calculate that, eg      e      0. We don't have such a theory so we need conserved quantities/conservation law ...
A Spin Chain Primer - University of Miami Physics
A Spin Chain Primer - University of Miami Physics

Time propagation of extreme two-electron wavefunctions F Robicheaux
Time propagation of extreme two-electron wavefunctions F Robicheaux

... region would need to cover a few 1000 Bohr radii and could need individual angular momentum of 40 or higher. This problem poses difficulties for the methods above because of the large spatial region and large number of angular momenta and because the amount of time needed for the simulation is ∼106 ...
1- Harmonic Oscillator in an impenetrable N - An
1- Harmonic Oscillator in an impenetrable N - An

Classical-field description of the quantum effects
Classical-field description of the quantum effects

Quantum Degeneracy in Two Dimensional Systems
Quantum Degeneracy in Two Dimensional Systems

Probability Current and Current Operators in Quantum Mechanics 1
Probability Current and Current Operators in Quantum Mechanics 1

CLASSICAL FIELDS - Instituto de Física Teórica
CLASSICAL FIELDS - Instituto de Física Teórica

Non-equilibrium steady state of sparse systems OFFPRINT and D. Cohen D. Hurowitz
Non-equilibrium steady state of sparse systems OFFPRINT and D. Cohen D. Hurowitz

Poincaré group
Poincaré group

Angular Impulse and Momentum for a Particle
Angular Impulse and Momentum for a Particle

An Ontological Interpretation of the Wave Function - Philsci
An Ontological Interpretation of the Wave Function - Philsci

Dirac equation