FYS-6306 QUANTUM THEORY OF MOLECULES AND NANOSTRUCTURES
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1 i FYS-6306 QUANTUM THEORY OF MOLECULES AND NANOSTRUCTURES Credit units: 6 ECTS Lectures: 48 h Tapio Rantala, prof. Tue SC203 SG SG312 FirstName.LastName@tut.fi --> FYS Exercises: 12 x 2 h Hossein Gholizade, SG312 Fri 8 10 SG312 hossein.gholizadehkalkhoran@tut.fi Text book: Prerequisites: P.W. Atkins and R.S. Friedman: Molecular Quantum Mechanics, Chapters 1 9 (Fifth edition, OXFORD University Press) Basics of physics and chemistry, quantum mechanics helps Examination: Dec , Feb , Mar December November October September August SCHEDULE 2017 WEEK Lecture Exercise Note! 35 Tue 36 Tue 37 Tue 38 Tue 39 Tue 40 Tue 41 Tue Tue 44 Tue 45 Tue 46 Tue 47 Tue 48 Tue 49 Tue Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Fr i Exam Exam week Exam week Exam week ii
2 CONTENTS iii Introduction and orientation Black-body radiation Heat capacities Photoelectric and Compton effects Atomic spectra Duality of matter Foundations of quantum mechanics... 7 Operators in quantum mechanics Linear operators Eigenfunctions and eigenvalues Representations Commutation and non-commutation Construction of operators Integrals over operators Dirac bracket and matrix notation Hermitian operators Postulates of quantum mechanics States and wavefunctions Fundamental prescription Outcome of measurements Interpretation of the wavefunction Equation for the wavefunction Separation of the Schrödinger equation Complementarity and time evolution Simultaneous observables Uncertainty principle Consequences of uncertainty principle Uncertainty in energy and time Time-evolution and conservation laws iv 2. Linear motion and harmonic oscillator Charateristics of the wavefunction "Well-behaving" wavefunctions Some general remarks on the Schrödinger equation Translational motion Energy and momentum Traveling waves and standing waves Flux density Wavepackets Penetration into and through barriers Potential barriers and tunneling Particle in a box D and 2D confinements Harmonic oscillator Solutions Properties of solutions Classical limit... 30
3 v 3. Rotational motion and hydrogen atom Particle on a ring and in a circle Hamiltonian and Schrödinger equation (particle on a ring) Angular momentum Shape of the wavefunction Classical limit Circular square well (particle in a circle) Particle on a sphere Schrödinger equation and its solution Angular momentum of the particle Properties of the solutions Rigid rotor Particle on a spherical well Motion in a Coulombic field Schrödinger equation for hydrogenic atoms Separation of radial and angular coordinates Solutions of the radial equations Probabilities and radial distribution function Atomic orbitals Further information vi 4. Angular momentum Angular momentum operators Operators and their commutation relations Angular momentum observables Shift operators Definition of states Effect of shift operators Eigenvalues of angular momentum Matrix elements of angular momentum Orbital angular momentum eigenfunctions Spin Coupling of angular momenta of composite systems Uncoupled and coupled states Permitted values of total angular momentum Vector model of coupled angular momenta Clebsh Gordan coefficients Coupling of several angular momenta... 60
4 vii 5. Group theory Symmetries of objects Symmetry operations and elements Classification of molecules Calculus of symmetry Definition of group Group multiplication tables Matrix representations Properties of matrix representations Characters of representations Characters of classes Irreducible representations Orthogonality theorems Reduced representations Reduction of representations Symmetry-adapted bases Symmetry properties of functions Transformation of p-orbitals Direct-product bases and atomic d-orbitals Direct-product groups Vanishing integrals Symmetry and degeneracy Full rotational groups Generators of rotations Point group of sphere viii 6. Techniques of approximation Semiclassical approximation Time-independent perturbation theory Perturbation of two-level system Many-level systems Comments on perturbation expressions Perturbation theory for degenerate states Variation theory Variation theorem Rayleigh Ritz method Hellmann Feynman theorem Time-dependent perturbation theory Time-dependence of two-level system Many-level systems Fermi's golden rule Einstein transition probabilities (A and B coefficients) Lifetime and spectral linewidth (energy uncertainty) Atomic spectra and atomic structure Spectrum of atomic hydrogen Transition energies Selection rules Orbital and spin magnetic moments Spin orbit coupling Fine-structure of spectra Term symbols Detailed spectrum of hydrogen
5 ix Structure of helium Helium atom Excited states of helium Spectrum of helium The Pauli principle Many-electron atoms Central-field and orbital approximations Periodic table of elements Slater atomic orbitals Slater determinants Self-consistent fields Restricted and unrestricted Hartree Fock approach Density functionals Term symbols of many-electron atoms Hund's rules LS- and jj-coupling Atoms in external fields Normal Zeeman effect Anomalous Zeeman effect Stark effect x 8. Introduction to molecular structure Born Oppenheimer approximation Formulation of Born Oppenheimer approximation Hydrogen molecule ion Molecular orbital theory Linear combination of atomic orbitals (LCAO) Hydrogen molecule Configuration interaction Diatomic molecules Polyatomic molecules Symmetry-adapted basis sets Conjugated π-systems and Hückel MO method Ligand field theory Band theory of solids "Tight-binding"-approximation Electrons in periodic crystal Brillouin zones
6 xi 9. First-principles methods Hartree Fock SCF method One-electron picture Hartree Fock approach Roothaan equations STO and GTO basis sets Electron correlation Configuration state functions (CSF) Configuration interaction (CI) CI calcualtions MCSCF and MRCI Møller Plesset many-body perturbation theory Coupled-cluster method Density functional theory (DFT) Hohenberg Kohn existence theorem Hohenberg Kohn variational theorem Kohn Sham equations Local-density approximation (LDA) "Evolution of Quantum Theory" and other issues... C1 OTHER LITERATURE M. Weissbluth: Atoms and Molecules (Academic Press, New York, 1983) R.G. Parr and W. Yang: Density-Functional Theory of Atoms and Molecules (Oxford University Press, Oxford, New York, 1989) T.T. Rantala: Local-Density Electronic Structure Calculations on the Spectra and Reactivity of Metals Acta Univ. Ouluensis A 184 (1987) Jean Louis Calais: Quantum Chemistry Workbook (John Wiley & Sons,New York, 1994) I. Lindgren och S. Svanberg: Atomfysik (Universitetsförlaget Uppsala, LiberTryck Stockholm, 1974) A. Hinchliffe: Computational Quantum Chemistry (John Wiley & Sons,Chichester, New York, 1989) S.V. Gaponenko: Optical Properties of Semiconductor Nanocrystals Cambridge Studies in Modern Optics (Cambridge University Press, Cambridge, 1998) xii
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