Template:Quantum Mechanics A: Difference between revisions

	Quantum Mechanics A
	Schrödinger Equation; The most fundamental equation of quantum mechanics; given a Hamiltonian , it describes how a state evolves in time.
	Physical Basis of Quantum Mechanics
	Basic Concepts and Theory of Motion; UV Catastrophe (Black-Body Radiation); Photoelectric Effect; Stability of Matter; Double Slit Experiment; Stern-Gerlach Experiment; The Principle of Complementarity; The Correspondence Principle; The Philosophy of Quantum Theory
	Schrödinger Equation
	Brief Derivation of Schrödinger Equation; Relation Between the Wave Function and Probability Density; Stationary States; Heisenberg Uncertainty Principle; Some Consequences of the Uncertainty Principle
	Operators, Eigenfunctions, and Symmetry
	Linear Vector Spaces and Operators; Commutation Relations and Simultaneous Eigenvalues; The Schrödinger Equation in Dirac Notation; Transformations of Operators and Symmetry
	Motion in One Dimension
	One-Dimensional Bound States; Oscillation Theorem; The Dirac Delta Function Potential; Scattering States, Transmission and Reflection; Motion in a Periodic Potential; Summary of One-Dimensional Systems
	Discrete Eigenvalues and Bound States
	Harmonic Oscillator Spectrum and Eigenstates; Analytical Method for Solving the Simple Harmonic Oscillator; Coherent States; Charged Particles in an Electromagnetic Field; WKB Approximation
	Time Evolution and the Pictures of Quantum Mechanics
	Heisenberg and Interaction Pictures: Equations of Motion for Operators; The Interaction Picture; Time Evolution of Expectation Values and Ehrenfest's Theorem; The Virial Theorem; Feynman Path Integrals; Problems
	Path Integral Evaluation of the Free-Particle Propagator
	Saddle point action; Harmonic fluctuations
	Angular momentum
	Commutation relations; Angular momentum as a generator of rotations in 3D; Spherical Coordinates; Eigenvalue quantization; Orbital angular momentum eigenfunctions; Problems on Angular Momentum
	Central forces
	Generalized derivation; Free particle in spherical coordinates; Spherical well; Isotropic Harmonic Oscillator; Hydrogen atom; WKB in spherical coordinates
	Continuous eigenvalues and collision theory
	Differential cross-section and the Green's function formulation of scattering; Central potential scattering and phase shifts; Born approximation and examples of cross-section calculations; Coulomb potential scattering; Two particle scattering

@@ Line 12: / Line 12: @@
 |Items4 = [[One-Dimensional Bound States]]<br /> [[Oscillation Theorem]]<br /> [[The Dirac Delta Function Potential]]<br /> [[Scattering States, Transmission and Reflection]]<br /> [[Motion in a Periodic Potential]]<br /> [[Summary of One-Dimensional Systems]]
 |Topic5 = [[Discrete Eigenvalues and Bound States; Harmonic Oscillator and WKB Approximation|Discrete Eigenvalues and Bound States]]
-|Items5 = [[Harmonic Oscillator Spectrum and Eigenstates]]<br /> [[Analytical Method for Solving the Simple Harmonic Oscillator]]<br /> [[Coherent States]]<br />[[Motion in an Electromagnetic Field]]<br />[[WKB Approximation]]
+|Items5 = [[Harmonic Oscillator Spectrum and Eigenstates]]<br /> [[Analytical Method for Solving the Simple Harmonic Oscillator]]<br /> [[Coherent States]]<br />[[Charged Particles in an Electromagnetic Field]]<br />[[WKB Approximation]]
 |Topic6 = [[Time Evolution and the Pictures of Quantum Mechanics]]
 |Items6 = [[Heisenberg and Interaction Pictures: Equations of Motion for Operators]]<br />[[The Interaction Picture]]<br />[[Time Evolution of Expectation Values and Ehrenfest's Theorem]]<br />[[The Virial Theorem]]<br />[[Feynman Path Integrals]]<br />[[Problems]]

Template:Quantum Mechanics A: Difference between revisions

Revision as of 15:10, 12 August 2013

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Template:Quantum Mechanics A: Difference between revisions

Revision as of 15:10, 12 August 2013

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