Quantum Physics
IUT-ENSICAEN
Updated 15/3/2014
Laboratory
Research Inst.
Teaching Inst.
University
CNRS
MENRT
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Quantum Physics
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Course
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Postulates
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Potential Step
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Reflection and Transmission at an Interface
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Current of Probability
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s, p, d, f Atomic Orbitals
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Radial Parts, n=0 to 4
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Angular Parts, l=0 to 2
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Angular Parts, l=3
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Exercises
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Orbital Moment
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Diatomic Molecule Rotation
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Duality
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1 Dinmension movement, Tunnel effect
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2-atoms delocalised electron
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Lorentz gauge propagation, Lagrange and Hamilton formalisms
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1-dimensional harmonic oscillator
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Spectral lines broadening: spectral decomposition
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Eigenvalues, eigenvectors, commutators
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Wave in a cavity: modal decomposition
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Spins Rotation and Precession
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Operators, Matrix representation
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Nuclear spin
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Rotation-Vibration spectra
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Coupled oscillators: Van der Walls interaction
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Rotation-Vibration: harmonic approximation
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Paramagnetism, Diamagnetism
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Practical Work
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Zeeman Effect
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