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; Time Evolution of Expectation Values and Ehrenfest's Theorem
	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
	The Heisenberg Picture: Equations of Motion for Operators; The Interaction Picture; The Virial Theorem
	Angular Momentum
	Commutation Relations; Angular Momentum as a Generator of Rotations in 3D; Spherical Coordinates; Eigenvalue Quantization; Orbital Angular Momentum Eigenfunctions
	Central Forces
	General Formalism; Free Particle in Spherical Coordinates; Spherical Well; Isotropic Harmonic Oscillator; Hydrogen Atom; WKB in Spherical Coordinates
	The Path Integral Formulation of Quantum Mechanics
	Feynman Path Integrals; The Free-Particle Propagator; Propagator for the Harmonic Oscillator
	Continuous Eigenvalues and Collision Theory
	Differential Cross Section and the Green's Function Formulation of Scattering; Central Potential Scattering and Phase Shifts; Coulomb Potential Scattering

@@ Line 1: / Line 1: @@
 {{PhysicsNavigation
 |Name = [[Phy5645|Quantum Mechanics A]]
-|Label = <math>\Delta x\, \Delta p \ge \frac{\hbar}{2}</math>
+|Label = [[Image:SchrodEq.png|150px]]
-|LabelId = <small>[[Uncertainty principle]]</small> <br />
+|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>
-|KeyItems = [[Introduction to quantum mechanics|Introduction]]<br /> [[Mathematical formulations of quantum mechanics|Mathematical formulations]]
 |Topic1 = [[Physical Basis of Quantum Mechanics]]
-|Items1 = [[Classical mechanics]]<br /> [[Old quantum theory]]<br /> [[Interference (wave propagation)|Interference]]{{·}} [[Bra-ket notation]]<br /> [[Hamiltonian (quantum mechanics)|Hamiltonian]]
+|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]]
+|Topic2 = [[Schrödinger Equation]]
-|Items2 = [[Quantum state]]{{·}} [[Wave function]]<br /> [[quantum superposition|Superposition]]{{·}} [[quantum entanglement|Entanglement]]<br /> [[Complementarity (physics)| Complementarity]]{{·}} [[Wave–particle duality|Duality]]<br /> [[Uncertainty principle|Uncertainty]]{{·}} [[Measurement in quantum mechanics|Measurement]]<br /> [[Pauli exclusion principle|Exclusion]]{{·}} [[Quantum decoherence|Decoherence]]<br /> [[Ehrenfest theorem]]{{·}} [[Quantum tunnelling|Tunnelling]]{{·}} [[Quantum nonlocality|Nonlocality]]
+|Items2 = [[Brief Derivation of Schrödinger Equation]]<br /> [[Relation Between the Wave Function and Probability Density]]<br /> [[Stationary States]]<br /> [[Heisenberg Uncertainty Principle]]<br /> [[Some Consequences of the Uncertainty Principle]]
-|Topic3 = [[Motion in one dimension]]
+|Topic3 = [[Operators, Eigenfunctions, and Symmetry]]
-|Items3 = [[Double-slit experiment|Double-slit]]{{·}}[[Davisson–Germer experiment|Davisson–Germer]]<br />[[Stern–Gerlach experiment|Stern–Gerlach]]{{·}}[[bell test experiments|Bell's inequality]]<br />[[Popper's experiment|Popper]]{{·}}[[Schrödinger's cat]]<br />[[Elitzur–Vaidman bomb-tester]]<br />[[Quantum eraser experiment|Quantum eraser]]<br />[[Delayed choice quantum eraser]]<br />[[Wheeler's delayed choice experiment|Wheeler's delayed choice]]
+|Items3 = [[Linear Vector Spaces and Operators]]<br />[[Commutation Relations and Simultaneous Eigenvalues]]<br />[[The Schrödinger Equation in Dirac Notation]]<br />[[Transformations of Operators and Symmetry]]<br />[[Time Evolution of Expectation Values and Ehrenfest's Theorem]]
-|Topic4 = [[Operators, eigenfunctions, symmetry, and time evolution]]
+|Topic4 = [[Motion in One Dimension]]
-|Items4 = [[Schrödinger picture]]<br />[[Heisenberg picture]]<br />[[Interaction picture]]<br />[[Matrix mechanics]]<br />[[Path integral formulation|Sum over histories]]
+|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]]
+|Topic5 = [[Discrete Eigenvalues and Bound States - The Harmonic Oscillator and the WKB Approximation|Discrete Eigenvalues and Bound States]]
-|Items5 = [[Schrödinger equation]]<br />[[Pauli equation]] <br /> [[Klein–Gordon equation]]<br />[[Dirac equation]]<br />[[Rydberg formula]]
+|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 = [[Path Integral Evaluation of the Free-Particle Propagator]]
+|Topic6 = [[Time Evolution and the Pictures of Quantum Mechanics]]
-|Items6 = [[De Broglie–Bohm theory|de Broglie–Bohm]]{{·}} [[Quantum mind/body problem#"Consciousness causes collapse"|CCC]]{{·}} [[Consistent histories]]{{·}} [[Copenhagen interpretation|Copenhagen]]{{·}} [[Ensemble interpretation|Ensemble]]{{·}} [[Hidden variable theory|Hidden variables]]{{·}} [[Many-worlds interpretation|Many-worlds]]{{·}} [[Objective collapse theory|Objective collapse]]{{·}} [[Pondicherry interpretation|Pondicherry]]{{·}} [[Quantum logic]]{{·}} [[Relational quantum mechanics|Relational]]{{·}} [[Stochastic interpretation|Stochastic]]{{·}} [[Transactional interpretation|Transactional]]
+|Items6 = [[The Heisenberg Picture: Equations of Motion for Operators]]<br />[[The Interaction Picture]]<br />[[The Virial Theorem]]
-|Topic7 = [[Angular momentum]]
+|Topic7 = [[Angular Momentum]]
-|Items7 = [[Quantum information science]]<br /> [[Scattering theory]]<br /> [[Quantum field theory]]<br /> [[Quantum chaos]]
+|Items7 = [[Commutation Relations]]<br />[[Angular Momentum as a Generator of Rotations in 3D]]<br />[[Spherical Coordinates]]<br />[[Eigenvalue Quantization]]<br />[[Orbital Angular Momentum Eigenfunctions]]
-|Scientists = [[John Stewart Bell|Bell]] • [[David Bohm|Bohm]] • [[Niels Bohr|Bohr]] • [[Max Born|Born]] • [[Satyendra Nath Bose|Bose]] • [[Louis de Broglie|de Broglie]] • [[Paul Dirac|Dirac]] • [[Paul Ehrenfest|Ehrenfest]] • [[Hugh Everett III|Everett]] • [[Richard Feynman|Feynman]] • [[Werner Heisenberg|Heisenberg]] • [[Pascual Jordan|Jordan]] • [[Hendrik Anthony Kramers|Kramers]] •  [[John von Neumann|von Neumann]] • [[Wolfgang Pauli|Pauli]] • [[Max Planck|Planck]] • [[Erwin Schrödinger|Schrödinger]] • [[Arnold Sommerfeld|Sommerfeld]] • [[Wilhelm Wien|Wien]]  • [[Eugene Wigner|Wigner]]
+|Topic8 = [[Central Forces]]
-|Topic8 = [[Central forces]]
+|Items8 = [[General Formalism]]<br />[[Free Particle in Spherical Coordinates]]<br />[[Spherical Well]]<br />[[Isotropic Harmonic Oscillator]]<br />[[Hydrogen Atom]]<br />[[WKB in Spherical Coordinates]]
-|Items8 = [[Schrödinger equation]]<br />[[Pauli equation]] <br /> [[Klein–Gordon equation]]<br />[[Dirac equation]]<br />[[Rydberg formula]]
+|Topic9 = [[The Path Integral Formulation of Quantum Mechanics]]
-|Topic9 = [[Continuous eigenvalues and collision theory]]
+|Items9 = [[Feynman Path Integrals]]<br />[[The Free-Particle Propagator]]<br />[[Propagator for the Harmonic Oscillator]]
-|Items9 = [[Schrödinger equation]]<br />[[Pauli equation]] <br /> [[Klein–Gordon equation]]<br />[[Dirac equation]]<br />[[Rydberg formula]]
+|Topic10 = [[Continuous Eigenvalues and Collision Theory]]
+|Items10 = [[Differential Cross Section and the Green's Function Formulation of Scattering]]<br />[[Central Potential Scattering and Phase Shifts]]<br />[[Coulomb Potential Scattering]]
 |cTopic = {{{cTopic}}}
 }}

Template:Quantum Mechanics A: Difference between revisions

Latest revision as of 12:32, 7 March 2014

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Template:Quantum Mechanics A: Difference between revisions

Latest revision as of 12:32, 7 March 2014

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