Budapest University of Technology and Economics, Faculty of Electrical Engineering and Informatics

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    MSc Physics

    A tantárgy neve magyarul / Name of the subject in Hungarian: Fizika 3

    Last updated: 2012. november 24.

    Budapest University of Technology and Economics
    Faculty of Electrical Engineering and Informatics
    Course ID Semester Assessment Credit Tantárgyfélév
    TE11MX01 1 3/1/0/v 5 1/1
    3. Course coordinator and department Dr. Mihály György,
    6. Pre-requisites
    Kötelező:
    NEM ( TárgyEredmény( "BMETE11MX33" , "jegy" , _ ) >= 2
    VAGY
    TárgyEredmény("BMETE11MX33", "FELVETEL", AktualisFelev()) > 0)

    A fenti forma a Neptun sajátja, ezen technikai okokból nem változtattunk.

    A kötelező előtanulmányi rendek grafikus formában itt láthatók.

    8. Synopsis Quantum Mechanics: Experimental antecedents.The Wave function.Time dependent and time independent
    Schrödinger's equation.Simple problems. Tunneling. Angular momentum. The hidrogen atom. Perturbations. The H. atom. Formal quantum mechanics. Operator calculus. Commutators, canonical conjugates and uncertainity relations. Harmonic oscillator. Selection rules and spectrum of H. The He atom, the independent particle approximation. The exclusion principle. Periodic system of elements. Molecules. molecular orbitals, chemical bonding, H-H bond. Molecules of many atoms. Orbital hybridisation. Conjugated molecules, cyclic conjugated molecules.Rotation and vibration of molecules. Franck-Condon principle, Rayleigh & Raman scattering. Classical and quantum statistics. Solid State Physics: The solid state. Short and long range order.Crystallography. Bonds in crystals..Real and point lattices..Symmetries and Unit cells. The reciprocal lattice. Bravais lattices. X- ray diffraction methods. Electrical conductivity. Drudel model. Sommerfeld
    model. Band theory of solids.Work function.. Contact potential. The adiabatic principle. Electrons in periodic lattices.
    Charge carrier characteristics. Crystal momentum. Effective
    mass.Band theory. The tight binding model. Intrinsic and
    doped semiconductors. Semiconductor structures. Superconductivity.
    Thermal properties. The transport equation.
    Onsager relations. Quantum theory of lattice vibrations. Optical
    properties. Magnetic and dielectric properties of solids.
    14. Required learning hours and assignment
    Kontakt óra
    Félévközi készülés órákra
    Felkészülés zárthelyire
    Házi feladat elkészítése
    Kijelölt írásos tananyag elsajátítása
    Vizsgafelkészülés
    Összesen