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
	Original Idea of Schrödinger Equation; Brief Derivation of Schrödinger Equation; Stationary States; Conservation of Probability; States, Dirac Bra-Ket Notation; Heisenberg Uncertainty Principle; Some Consequences of the Uncertainty Principle
	Motion in one dimension
	1D bound states; The Dirac Delta function potential; Scattering states; Oscillation theorem; Transmission-Reflection, S-matrix; Motion in a periodic potential; Summary of 1D Systems
	Operators, eigenfunctions, symmetry, and time evolution
	Linear Vector Space and Operators; Commutation relations and simultaneous eigenvalues; Symmetry and Its Role in Quantum Mechanics; Ehrenfest's Theorem; Heisenberg and interaction picture: Equations of motion for operators; The Interaction Picture; The Virial Theorem; Feynman path integrals; Problems
	Discrete eigenvalues and bound states
	Harmonic oscillator spectrum and eigenstates; Analytical Method for Solving the Simple Harmonic Oscillator; Coherent states; Feynman path integral evaluation of the propagator; Motion in electromagnetic field; WKB Approximation
	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
	{{{Items10}}}

@@ Line 4: / Line 4: @@
 |LabelId = <small><b>[[Schrödinger Equation]]</b><br/>The most fundamental equation of quantum mechanics; given a Hamiltonian <math>\mathcal{H}</math>, it describes how a state <math>|\Psi\rangle</math> evolves in time.</small>
 |Topic1 = [[Physical Basis of Quantum Mechanics]]
-|Items1 = [[Basic Concepts and Theory of Motion]]<br /> [[UV Catastrophe (Black Body Radiation)]]<br /> [[Photoelectric Effect]]<br /> [[Stability of Matter]]<br /> [[Double Slit Experiment]]<br /> [[Stern-Gerlach Experiment]]<br /> [[The Principle of Complementarity]]<br /> [[The Correspondence Principle]]<br /> [[The Philosophy of Quantum Theory]]
+|Items1 = [[Basic Concepts and Theory of Motion]]<br /> [[UV Catastrophe (Black-Body Radiation)]]<br /> [[Photoelectric Effect]]<br /> [[Stability of Matter]]<br /> [[Double Slit Experiment]]<br /> [[Stern-Gerlach Experiment]]<br /> [[The Principle of Complementarity]]<br /> [[The Correspondence Principle]]<br /> [[The Philosophy of Quantum Theory]]
 |Topic2 = [[Schrödinger Equation]]
 |Items2 = [[Original Idea of Schrödinger Equation]]<br /> [[Brief Derivation of Schrödinger Equation]]<br /> [[Stationary States]]<br /> [[Conservation of Probability]]<br /> [[States, Dirac Bra-Ket Notation]]<br /> [[Heisenberg Uncertainty Principle]]<br /> [[Some Consequences of the Uncertainty Principle]]

Template:Quantum Mechanics A: Difference between revisions

Revision as of 15:59, 3 April 2013

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Template:Quantum Mechanics A: Difference between revisions

Revision as of 15:59, 3 April 2013

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