Content of Courses for Physics MSc Program
- FIZ701 Matematical Methods of Physics I (3 0 3) 6 ECTS
Vectors, Coodinate Systems, Matrices, Tensors, Tensor Analysis, Lineer Transformations, Fourier Series, One Dimensional Wave Equation Solutions, Fourier Transformations, Laplace Transformations, Special Functions, Legendre Functions, Bessel Functions, Spherical Harmonics, Partial Differential Equations, Sturm-Liouville Theory-Orthogonal Functions, Gamma Functions.
- FIZ702 Mathematical Methods of Physics II (3 0 3) 6 ECTS
Infinete Seires, Complex Functions, Non-Homogeneous Differential Equation Solutions, Green Theorem And Its Applications, Integral Equations, Group Theory, Probability.
- FIZ703 Electromagnetic Theory I (3 0 3) 6 ECTS
Introduction To Electrostatistics, Boundry Value Problems and Solutions, Multi Poles, Electrostatic Dielectrics in Macroscopic Media.
- FIZ704 Electromagnetic Theory II (3 0 3) 6 ECTS
Magnetostatics, Time Varient Fields, Maxwell Equations, Conservation Laws, Plane Electromagnetic Waves And Wave Propagation.
FIZ705 Molecular Physics I (3 0 3) 6 ECTS
Introduction To Molecular Structures, Electronic Vibrations And Rotations Of Molecules, Dipole Transmissions, Electronic Structure Analysis Of Diatomic Molecules, Hybridization, General Methods Of Molecular Calculations, Spectroscopic Methods And Spectroscopic Analysis Of Small Molecules.
- FIZ706 Molecular Physics II (3 0 3) 6 ECTS
Intermolecular Forces, Long And Short Range Interactions, Interaction Of Small Atomic Systems, Physical Absorbtion, Molecular Collision Theory, Scattering With Central Force, Elastic And Inelastic Collisions, Transition Probabilities And Energy Transition With Collision.
- FIZ707 Magnetic Resonance I (3 0 3) 6 ECTS
Spectroscopy And Magnetic Resonance, Quantum Mechanical Concepts, Fundamental Principles in Magnetic Resonance, Dynamical Study Of Spin System (Classical Method), Dynamical Study Of Spin System (Quantum Mechanical Method), Dipole-Dipole Interaction in Double Spin Nucleus Systems And Second Moment.
- FIZ708 Magnetic Rezonance II (3 0 3) 6 ECTS
Experimental Methods, HR NMR in Liquids, Dynamics Of Nucleus Spin, ESR in Liquids, ESR Theorem İn Single Crystals And İts Applications, Double Resonance (ENDOR).
- FIZ709 Solid State Theory I (3 0 3) 6 ECTS
Crystal Symmetry, Electron Levels, Transmission Properties, Electron Dynamics, Optical Properties.
- FIZ710 Solid State Theory II (3 0 3) 6 ECTS
Phonons, Electron Phonon Interactions, Interatomic Forces And Atomic Properties, Principles Of Many Body Techniques, Superconductivity.
- FIZ711 Optical Properties of Semiconductors I (3 0 3) 6 ECTS
Optical absorbtion and reflaction, radiative and nonradiative transitions of free transporter magneto-optical effects, semi conductors, light production by Luminescence and stimulated emission, photoconductivity, photoconductor matters and devices, effects of photoconductivity, photoelectronic emission, electroluminescence, photovoltaic effect, optical effects of phonons, IR absorption, Brillouin and Raman scattering, determining the bad structure with reflaction modulated spectroscope, optical properties of semi conductor surfaces.
- FIZ712 Amorphous Semiconductors (3 0 3) 6 ECTS
Transmission theory in Amorphous semi conductors, semiconductor glasses, switching and memory events, thin film semiconductors, applications of amorphous semiconductors.
- FIZ713 Classical Mechanics I (3 0 3) 6 ECTS
Fundamental principles of classical mechanics and conservation laws, variational principle and lagrange equations, two body central force problem, rigid body kinematics, euler angles, equations of motion of rigid body.
- FIZ714 Classical Mechanics II (3 0 3) 6 ECTS
Small vibrations, eigenvalue equation, free vibration frequency and normal coordinates, free vibration of lineer molecules, damping oscillations. Special relativity, Hamiltonian equations of motion, conservation laws and the physical meaning of Hamiltonian; Least Action principle, Canonical transformations, Poisson brackets, the theory of Hamilton Jacobi and applications.
- FIZ715 Advanced Nuclear Physics I (3 0 3) 6 ECTS
General properties of nucleus, radioactive decay, reactions of nucleus, nucleer force, models of nucleus, shell model, experimental proofs, the principles of shell model and magic numbers.
- FIZ717 Transport Properties of Liquids and Gasses I (3 0 3) 6 ECTS
Virial coefficients, Dilute Gases, Molecular collisions and dispersion angles, The equation of motion as Classical Statistical mechanics, Wave mechanic definitions of systems, two particles systems and phase shift, transport coefficients of fluids, disturbution functions, Momentum, Phase space, time variation of probability density, transport properties of fluids at low and high temperatures.
- FIZ718 Transport Properties of Liquids and Gasses II (3 0 3) 6 ECTS
General Statistical Mechanics, Quantum Mechanical equations of motion, Molecular collisions at quantum mechanics, quantum mechanical behaviors of singular systems, description of statistical ensembles at quantum mechanics, Corresponding states principle at quantum mechanics, quantum effects at liquid phase, quantum effects at diatomic gases, Enskog solution of Boltzmann equation, high order approximations to the transport coefficients.
- FIZ719 Advanced Simulation Techniques I (2 2 3) 6 ECTS
Molecular dynamics, numerical calculations of special functions and related algorithms, potential energy functions, Local and Global optimization methods, Microcanonical and Canonical molecular dynamic simulations.
- FIZ720 Advanced Simulation Techniques II (2 2 3) 6 ECTS
Monte Carlo Random number Generators, Brownian dynamics, Metropolis method, Microcanonical ensemble Monte Carlo Methods, Canonical ensemble Monte Carlo Methods, Isothermal and isobaric Monte Carlo Methods.
- FIZ721 Measurement Techniques in Nuclear Physics (3 0 3) 6 ECTS
Types of Radiation, Interaction of Radiation with matter, radiation gauges, Nucleer spin and moments, some applications at nucleer physics.
- FIZ722 Environmental Radioactivity (3 0 3) 6 ECTS
Brief history of environmental radioactivity, natural environmental radioactivity, doses taken from environmental and natural radiation, atmospheric, terrestrial and aquatic natural radionuclide, radioactive contamination of environmental, radiation effect on human health, standard of radiological conservation.
- FIZ723 Quantum Field Theory I (3 0 3) 6 ECTS
Classical Field Theory, Klein-Gordon, Proca and Dirac Lagrangians, Propagators, Canonical Quantization, Gauge Symmetry and Gauge Fields, İnteraction Quantum Fields and Feynman Diagrams, Quantum Electrodynamics.
FIZ724 Quantum Field Theory II (3 0 3) 6 ECTS
Radiative corrections, Functional Methods, Path integral Quantization, Renormalization, standard model.
- FIZ725 Concepts Of Modern Physics (3 0 3) 6 ECTS
Necessity of modern Physics, Relativity Theory, Waves and Particle properties of Waves, Structure of Atom, Quantum Mechanics, Radiation, Molecule and Solid State Physics.
- FIZ797 M.Sc. Seminar (0 2 0) 3 ECTS
The Course offers the M.Sc. students to prepare a text with a proper format by investigating literatures and to give an oral presentation to their departmental academic staff. The oral presentations enable the students to gain ability in interactively transfering knowledge and disscusion.
- FIZ798 M.Sc. Field of Specialization (2 0 0) 15 ECTS
This is a theorical course offerred in semestre, semestre break and summer terms followed by appointment of the advisor for M.Sc. students. It provides M.Sc. students to obtain scientific ethic and discipline.
- FIZ799 M.Sc. Thesis Research (0 1 0) 15 ECTS
This is a practical course offerred in year, semestre, semestre break and summer terms followed by appointment of the advisor for M.Sc. students.
Content of Courses for Physics PhD Program
- FIZ801 Quantum Mechanics I (3 0 3) 6 ECTS
Fundamental concepts at quantum mechanics, wave packages and Heisenberg uncertainty principle, Schrödinger equation, Solution of one dimension square well potentials, derivation of wave equation, interpretation of wave function, energy eigenfunctions, eigenfunctions and eigenvalues, discontinuous eigenvalues and bound states, Lineer Harmonic ossilators, three dimensional square well potential, Hidrogen atom, continuous eigenvalues, collision theory, one dimensional square well barrier, three dimensional collision, dispersion, Matrix notation of Quantum Mechanics, Dirac notation, transformation theory, Matrix notation of operator and states, equations of motion.
- FIZ802 Quantum Mechanics II (3 0 3) 6 ECTS
Symmetry at quantum mechanics, space and time shift, Union of angular momentum states and Tensor operators, Unitary Groups, Approximations methods for bounded states, time independent Perturbation, Variation Method and its applications, WKB approximation, Time dependent perturbation, Interation of radiation with matter, collision theory, identical particals and spin, quantum mechanics of atoms and molecules, relativistic wave equation, Dirac's relativistic wave equation in central field.
- FIZ803 Statistical Mechanics I (3 0 3) 6 ECTS
Laws of Thermodynamics, Some Applications of Thermodynamics, Kinetic Theory, Boltzmann transport equation and its applications, Classical statistical mechanics, Canonical and Grand Canaonical ensembles, fundamental concepts of calssical and quantum statistics, Detailed analysis of ideal Fermi and Bose systems.
- FIZ804 Statistical Mechanics II (3 0 3) 6 ECTS
Non ideal Fermi and Bose Gases at low temperatures, ensemble expansions, Phase transitions, Ising Model, Onsager Solution, Liquid Helium, Dual ordered-nonordered structure theorem, Solutions.
- FIZ805 Crystal Growth Techniques (3 0 3) 6 ECTS
Techniques of crystal growth, preparation of volumed and thin film single crystal tests, Characterization, Cyristallography, symmetry in Crystals, Geometry of crystals, Properties of X-rays, diffraction theory, experimental techniques in single crystals.
- FIZ806 Current Topics in Solid State Physics (3 0 3) 6 ECTS
Literature search in up-to-date topics and latest scientific headway in solid state physics, and reporting the studies.
- FIZ807 Super Conductivity (3 0 3) 6 ECTS
Fundamental properties of superconductors, magnetic properties of type I and II superconductors, preparing these superconductors as thin and volumed film, applications of superconductors.
- FIZ808 Current Topics in Atomics and Molecular Physics (3 0 3) 6 ECTS
Literature search in up-to-date topics and latest scientific headway in atomic and molecular physics, and reporting the studies.
- FIZ809 Advanced Magnetic Resonance (3 0 3) 6 ECTS
Advanced magnetic resonance, clarification processes, HR NMR in solids, NMR visualization and EPR in biological systems.
- FIZ810 Current Topics in General Physics (3 0 3) 6 ECTS
Literature search in up-to-date topics and latest scientific headway in general physics, and reporting the studies.
- FIZ811 Electrical and Magnetic Properties of Semiconductor Systems (3 0 3) 6 ECTS
Theretical applications, Heterojunctions and metal-semiconductor junctions.
- FIZ813 Molecular Dynamics Simulation (3 0 3) 6 ECTS
Simulation methods. Newton Dynamics, Hamilton Dynamics and Phase space orbital. Model systems and interaction potentials. MD algorithms and solution methods of equations of motion. Interpretaion of data obtained from simulations.
- FIZ815 General Relativity I (3 0 3) 6 ECTS
Equivalence principle, manifolds tensors and forms, Riemann curvature, Ricci tensor and Ricci scalar, Einstein field equations, Hilbert action, Schwarzschild solution of the Einstein field equations, Kepler problem in the general theory of relativity, black holes.
- FIZ816 General Relativity II (3 0 3) 6 ECTS
Reissner Nordström and Kerr solutions of the Einstein field equations, charged and spinning black holes, linearized Einstein field equations and the gravitational radiation, tetrads and the spin connections, Kaluza-Klein type theories, Friedmann Robertson Walker cosmology.
- FIZ817 Physics of Fundamental Interactions I (3 0 3) 6 ECTS
Fermi theory, weak interactions, Weinberg-Salam model, leptonic and hadronic interactions, relativistic field theory, scattering processes, gauge theories, quantum electrodynamics processes, QED Feynman rules, higher order scatterings.
- FIZ818 Physics of Fundamental Interactions II (3 0 3) 6 ECTS
Quark models, QCD Feynman rules, QCD scattering processes, perturbative QCD, nonperturbative QCD, grand unification theories.
- FIZ897 Ph.D. Seminar (0 2 0) 3 ECTS
The Course offers the Ph.D. students to prepare a text with a proper format by investigating literatures and to give an oral presentation to their departmental academic staff. The oral presentations enable the students to gain ability in interactively transfering knowledge and disscusion.
- FIZ898 Ph.D. Field of Specialization (3 0 0) 15 ECTS
This is a theorical course offerred in year, semestre, semestre break and summer terms followed by appointment of the advisor for Ph.D. students. It provides Ph.D. students to obtain scientific ethic and discipline.
- FIZ899 Ph.D. Thesis Research (0 1 0) 15 ECTS
This is a practical course offerred in year, semestre, semestre break and summer terms followed by appointment of the advisor for Ph.D. students.