Template:Quantum Mechanics A

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Quantum Mechanics A
SchrodEq.png
Schrödinger equation
The most fundamental equation of quantum mechanics which describes the rule according to which a state evolves in time.
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
Original Idea of Schrödinger Equation
Brief deviation of Schrodinger Equation
Stationary states
Conservation of probability
States, Dirac bra-ket notation
Heisenberg Uncertainty relations
Some Consequences of the Uncertainty Principle
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
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 Viral Theorem
Feynman path integrals
Problems
Harmonic oscillator spectrum and eigenstates
Analytical Method for Solving the Simple Harmonic Oscillator
Coherent states
Feynman path integral evaluation of the propagator
Saddle point action
Harmonic fluctuations
Motion in electromagnetic field
WKB Approximation
Quantum information science
Scattering theory
Quantum field theory
Quantum chaos
Schrödinger equation
Pauli equation
Klein–Gordon equation
Dirac equation
Rydberg formula
Schrödinger equation
Pauli equation
Klein–Gordon equation
Dirac equation
Rydberg formula
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