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DEPARTMENT OF PHYSICS

Course Title Statistical Physics and ThermodynamicsDepartment PhysicsDivision in the Dept.

Code Term Level Type LanguageCredit hours/week

Lecture Lab Credit ECTS Credit

FİZ 501 Fall Master of Science Opt. Turkish 3 0 3 5

Course Prerequisites

Name of Instructors

Doç. Dr. Cesur EKİZ

Instructor Information

Department of [email protected]

Course Objective and brief Description

The purpose of course is to give information about basic principles of statistical physics and thermodynamics.

Textbook and Supplementary readings1 İstatistik Mekaniğe Giriş, Bekir Karaoğlu, Seyir Yayıncılık2 Statistical Physics, Berkeley physics course-volume 53 Principles of Equilibrium Statistical Mechanics, D. Chowdhury, D. Stauffer, Wiley-VCH4

COURSE CALANDER / SCHEDULEWeek Lecture topics Practice/Lab/Field

1 Basic probability theory

2 Classical statistical mechanics

3 Maxwell-Boltzmann statistics

4 Statistics and Thermodynamic connection

5 Quantum statistics

6 Quantum statistics

7 Microcanonic ensemble

8 Canonic ensemble

9 Grand Canonic ensemble

10 Fermi-Dirac statistics

11 Fermi-Dirac statistics

12 Bose-Einstein statistics

13 Bose-Einstein statistics

14 Final Exam

Course assessment will be weighted 40 % for one quiz and 60 % for the final exam. Depending on instructor’s preference, assessment may be by written or/and oral examination, homework, lab assay, projects, group presentation, or a combination of these.


Course Title Condensed Matter Physics IDepartment PhysicsDivision in the Dept. Solid State Physics



FIZ 503 Fall Master Scienece Opt. Turkish-English 3 0 3 5


Name of Instructors

Assistant Prof. Dr. Hüseyin Derin


Department of Physics, Faculty of Sciences&Arts, Adnan Menderes University, 09010-AYDIN, Turkey, [email protected]


To provide the properties of solids through clear and detailed treatments of fundamental theoretical concepts are explored and understanded by students

The course relates to crystal structures and the behaviour of electrons in crystal.

Textbook and Supplementary readings1 Introduction to Solid state Physics, Charles Kittel, University of California, Berkeley, John Wiley&Sons,

Inc., 2005, (8.Baskı)2 Solid State Physics, Neil W. Ashcroft, and N. David Mermin, Cornel University, Thomson Learning, 19763 The physics of Solids, Richard Turton, Oxford University Press, Oxford, 20004 Solid State Physics, F. Wooten and D. Weaire, Volume 2, Academic Pres, New York, 1987


1 Free electron theory; Free electron Fermi gas

2 Electrical properties of metals

3 Thermal properties of metals

4 Wave equation of electron in a periodic potential

5 Nearly free electron model

6 Electron-phonon scattering

7 Supercondictivity

8 Magnetic properties of solids

9 Semiconductors

10 Midterm exam

11 Optical properties of solids

12 Nanostructures

13 Noncrystalline solids

14 Final Exam



Course Title Relativistic Particle TheoryDepartment PhysicsDivision in the Dept. Physics


Lecture Lab Credit ECTS CreditFİZ 505 Fall Master Optinal Turkish 3 0 3 5

Course Prerequisites Fiz 511 Quantum Physics,

Name of Instructors

Assistant Prof. Haydar Uncu


Adnan Menderes Üniversitesi, Fen Edebiyat Fakültesi, Fizik Bölümü Aytepe Mevkii09100 Aydın. E-mail:[email protected]


Investigating atomic and subtatomic particles which move with speeds close to speed of light.

Textbook and Supplementary readings1 Relativistic Quantum Mechanics (Yazar: P. Strange)2 Introduction to Elemantary Particles (Yazar: D. Griffiths)3 The Quantum Theory of Fields, Volume 1: Foundations (Yazar: S. Weinberg)4 Quantum Mechanics: (Yazar: B.H. Bransden & C.J. Joachain)


1 A Brief Summary of Special Relativity

2 Basic Aspects of Angular Momentum

3 Particles of Spin-Zero and The Klein Gordon Equation

4 The Dirac Equation

5 Free Particles/Antiparticles

6 Symmetries and Operators

7 Separating Particles from Antiparticles

8 One-Electron Atoms

9 Potential Problems

10 Atoms with More Than One Electrons

11 Scattering Thory

12 Electrons and Photons

13 Superconductivity

14 Final Exam



Course Title Classical MechanicsDepartment PhysicsDivision in the Dept. Physics



FİZ 507 Fall Master Obligatory Turkish 3 0 3 10

Course Prerequisites None

Name of Instructors

Yrd. Doç. Dr. Nuray Horasan


Adnan Menderes Üniversitesi Fen-edebiyat Fakültesi Fizik Bölümü [email protected]

Course Objective and brief Description To teach the fundamental concepts of classical mechanics in an advanced level

Textbook and Supplementary readings1 Classical mechanics, Herbert Goldstein2 Classical mechanics, T. W. Kibble, F. H. Berkshire3 Foundations of mechanics, R. Abragam, J. E. Marsden4 Mechanics, John C. Slater, Nathaniel F. Frank


1 Survey of the elementary principles

2 Velocity-dependent potentials

3 Variational principles and Lagrange’s equations

4 The central force, The two body problem

5 Kinematics of rigid body motions

6 The rigid body equations of motions

7 Small oscillation approach

8 The classical mechanics of the special theory of relativity

9 The Hamilton equations of motion

10 Canonical transformations

11 Hamilton-Jacobi theory

12 Canonical perturbation theory

13 The mechanics of continuous systems

14 Final Exam



Course Title Computer Simulations in Physics IDepartment PhysicsDivision in the Dept. Physics



FIZ 509 Fall Master Science Opt. Turkish-

English 2 2 3 5


Name of Instructors

Prof. Dr. Halil YARANERİ




Program is intended to provide to students the ability to write computer algorithm for various problems in physics and solve them by various methods.

Textbook and Supplementary readings1 H.Gould,J.Tobochnik,An Introduction to Computer Simulation Methods,Application to Physical

Problems,Addison-Wesley ,New York,1996.2 W.H.Press,B.P.Flannery,Numerical Recipes,Cambridge University Press,Cambridge,1987.3 B.Karaoğlu,Sayısal Fizik,Seyir Yayınevi,2004 ,Istanbul.4


1 Introduction to Computer Programming

2 Examples of Differential Equations in Physics and Their significans

3 Methods of Solving Differential Equations-Euler Methods

4 Solving 1D Equations of motion-Linear and Nonlinear Oscillators

5 Solving 2D Equations of motion-Motion of a particle in a potantial

6 Solving Many-Body particle problem-Clasical Scattering

7 Systems with Many Degrees of Freedom-Phonons and Dispersion

8 Runge-Kutta Integration Methods

9 Solution of Equations of Motion in 1D and 2D by Runge-Kutta Methods

10 Runge-Kutta Methods for System of Many Degrees of freedom

11 Numerical Solution of Partial Differential Equations

12 Solving Time Independent Schrödinger equations

13 Solving Scrödinger Equations for Infinite Well,Harmonic and Coulomb Potantial

14 Final Exam



Course Title Quantum Mechanics

Department PhysicsDivision in the Dept. Physics



FİZ 511 Fall Master Obl. Turkish 3 0 3 10Course Prerequisites

Name of Instructors

Assist. Prof. Haydar Uncu




Introducing mathematical structure and applications of quantum mechanics.

Textbook and Supplementary readings1 Quantum Mechanics: Foundations and Applications (Author: Arno Bohm)2 Principles of Quantum Mechanics (Author: Ramamurti Shankar)3 Quantum Mechanics (Author: L.E Ballantine)4 Quantum Mechanics: A Modern Development (Author: B.H. Bransden & C.J. Joachain)


1 Mathematical Foundations --

2 Axioms of Quantum Mechanics --

3 Simple Problems in One Dimesnsion --

4 The Classical Limit --

5 The Harmonic Oscillator --

6 The Heisenberg Uncertainity Relation --

7 Systems with N Degrees of Freedom,Symmetries and Their Conesquences

--

8 Rotational Invariance and Quantum Mechanics --

9 Hydrogen Atom --

10 Spin --

11 Addition of Angular Momenta --

12 Approximation Methods --

13 Introduction to Scattering Theory --

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Optics of thin filmsDepartment Physics

Division in the Dept. Physics



FIZ 513 Fall Master Scienece Opt. Turkish-

English 3 0 3 5


Name of Instructors





To understand the general features of the optical behaviour of thin films showed large differences fron those the bulk materials, and to learn the studying techniques of optical properties of thin films. Optics of thin films studies the optical properties of thin layers having the thicknesses ranging a few nanometers up to about 1000nm and which transmit a measurable amount of radiation.

Textbook and Supplementary readings1 Optics of Thin Films, Antonin Vasicek, North- Holland Publishing Company, Amsterdam, 19592 Basics of Optics of Multılayer systems, Sh. A. Furman, and A. V. Tikhonravov, Fong&Sons Printers Pte.

Ltd, 19923 Optical Properties of Thin Solid Films, O. S. Heavens, Dover Publications, Inc., New York, 19544 The Optical Constants of Bulk Materials and Films(2nd Ed.), L Ward, Institute od Physics Publishing,

Bristol-1994COURSE CALANDER / SCHEDULE

Week Lecture topics Practice/Lab/Field

1 Electromagnetic field in layered media

2 Amplitude transmittance and reflectance of layered media, Frensel coefficients

3 Optical constants of layered media

4 Absorption and dispersion

5 Reflection and transmission by a single film.

6 Optical constants of thin films; experimental methods

7 Results on optical constants; metal films

8 Abnormal absorption phenomenon

9 Maxwell-Garnett theory

10 Midterm exam

11 Dielectric and semiconductor films

12 Size effect in optical properties

13 Multilayer optical stystem

14 Final Exam



Course Title Quantum Physics

Department PhysicsDivision in the Dept. Physics


Lecture Lab Credit ECTS CreditFİZ515 Fall Master Elective Turkish 3 0 3 5

Course Prerequisites Fiz 506 Mathematical Methods in Physics, Fiz 511 Quantum Mechanics,

Name of Instructors





Introducing symmetries in nature and the Group theory which is the mathematical method for investigating these symmetries.

Textbook and Supplementary readings1 Symmetry in Physics (Authors: J.P. Elliot, P.G. Dawber)2 Lie Groups and Algebras with Applications to Physics, Geometry and Mechanics

(Authors: D.H Sattinger, O.L. Weaver)3 Lie Groups, Lie Algebras and Some of their Applications (Author: R. Gilmore)4 Group Theory in Physics (Author: Wu-Ki Tung)


1 Groups and their Properties --

2 Linear Algebra and Vector Spaces --

3 Group Representations --

4 Symmetry in Quantum Mechanics --

5 Molecular Vibrations --

6 Continuous Groups and their Representations --

7 Angular Momentum and the Group R 3 --

8 Point Groups with an Application to Crystal Fields --

9 Isospin and the Group SU2 --

10 The Group SU3 with Applications to Elemantary Particles --

11 Irreducible Representations of SU3 --

12 Supermultiplets in Nuclei and Elementary Particles --

13 Space and Time --

14 Final Exam


DEPARTMENT OF PHYSICSCourse Title Nonlinear Dynamics and ChaosDepartment Physics

Division in the Dept. Physics


Lecture Lab Credit ECTSCredit

FIZ 517 Fall Master Science Opt. Turkish-

English 3 0 3 5


Name of Instructors





Program is intended to provide to students the ability to write deal with nonlinear systems and solve the problems related to it by various methods.

Textbook and Supplementary readings1 R.H.Rand ,Lecture Notes on Nonlinear Vibrations ,Cornell University Press,NewYork,20012 L.N.Virgin,Introduction to Experimental Nonlinear Dynamics,Cambridge University

Press,2000,Cambridge3 S.H.Strogatz,Nonlinear Dynamics and Chaos,Perseus Books 1994,Massachusetts4


1 Introduction to Nonlinear Systems

2 Flows in one dimensions and bifurcations

3 Representation of systems in Phase plane and its interpretation

4 Investigation of one dimensional nonlinear systems ,equilibrium points.

5 Stability of Equilibrium points and bifürcations

6 Investigation of nonlinear systems in two dimensions

7 Phase space representation and Periodic motions

8 Limit cycle and bifurcations in two dimension

9 Mapping in one and two dimension

10 Investigation of Logistic ve Lorenz equation

11 Definition of chaos and investigation of its relation two bifurcations

12 Investigation of Chaos Control

13 Strange attractors

14 Final Exam



Course Title Statistical Mechanics of phase transitions

Department PhysicsDivision in the Dept.



FİZ 519 Fall Masterof Science Opt. Turkish 3 0 3 5


Name of Instructors





The purpose of course is to give information about basic principles of phase transitions.



1 Phase transitions

2 Critical points

3 Thermodynamic limit

4 Critical phenomena in fluids and magnets

5 Kararlı, yarıkararlı ve kararsız durumlar

6 Stable, metasable and unstable states



9 Classification of phase transitions

10 Classification of phase transitions

11 Derivation of the thermodynamic potentials

12 Derivation of the thermodynamic potentials;

13 Critical exponents

14 Final Exam



Course Title Advanced Atomic and Molecular Physics I

Department PhysicsDivision in the Dept. Atomic and molecular physics


Lecture Lab Credit ECTS CreditFIZ523 Fall Master Elective Turkish 3 0 3 5


Name of Instructors



[email protected]


To teach atom structure, atomic spectroscopy and application fields of atomic spectroscopy.

Textbook and Supplementary readings1 Atom ve molekül fiziği, B. H. Bransden and C. J. Joachain2 Atomic Phyics, Dimitry Budker, Derek F. Kimball, David P. Demille3 Advances in atomic, molecular and optical physics, Benjamin Bederson, Harbert Walther4 Introduction to Quantum Mechanics, R. H. Dicke, J. P. Wittke


1 Introduction of atomic physics and atomic structure

2 One-electron atoms

3 Interaction of one-electron atoms with electromagnetic radiation

4 Fine structure and hyperfine structure, the Zeeman effect

5 The Stark effects, the Lamp shift, isotope shifts

6 Two-electron atoms

7 Many electron atoms

8 The Thomas-Fermi model of the atoms, the Hartree-Fock method

9 L-S ve j-j coupling

10 Interaction of many electron atoms with electromagnetic radiation

11 Selection rules

12 Atomic spectroscopy

13 Applications of atomic spectroscopy

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Magnetic Resonance IDepartment PhysicsDivision in the Dept. Fizik



FİZ 525 Fall Master Elective Turkish 3 0 3 5Course Prerequisites None

Name of Instructors





To teach fundamental principles of magnetic resonsance.

Textbook and Supplementary readings1 Manyetik rezonans, Fevzi Apaydın2 Introductin to magnetic resonance, A. Carrington, A. D. Mclachlan3 Principles of magnetic resonance, C. P. Slichter4 Quantum Theory of Atomic Structure, J. C. Slater


1 Quantum mechanical theory

2 Motion equation of isolated spin systems

3 Motion equation of unisolated spin systems

4 Magnetic susceptibility, absorption energy of spin system, transition effects

5 Investigation of spin system by quantum mechanical methods

6 Transition probability, linewidth, temperature dependent of saturated state

7 Spectroscopy and magnetic resonance

8 Basic principles of magnetic resonance

9 Experimental techniques of magnetic resonance, EPR and NMR spectrometer

10 Technique of continuous wave NMR and EPR

11 Phase-sensitive detector

12 Mechanism of pulsed spectrometer

13 Measurement techniques of relaxation times

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Functional Analşsis for PhysicistsDepartment PhysicsDivision in the Dept. Physics



FİZ 527 Fall Master Elective Turkish 3 0 3 5Course Prerequisites FİZ 506 Mathematical Methods in Physics

Name of Instructors

Assist. Prof. Haydar UNCU


Adnan Menderes Üniversitesi Fen-edebiyat Fakültesi Fizik Bölümü Aytepe Mevkii 09100 AYDIN. [email protected]


Introducing mathematical methods for advanced quantum mechanics.

Textbook and Supplementary readings1 Fonksiyonel Analiz (İbrahim Şuhubi)2 Introductory Functional Analysis with Applications (E. Kreyszig)3 Elements of the Theory of Functions and Functional Analysis (A. N. Kolmogorov and S. V. Fomin)4 Functional Analysis (Walter Rudin)


1 Metric Spaces

2 Normed Spaces, Banach Spaces

3 Innerr Product Spaces

4 Hilbert Spaces

5 Fundamental Theorem of Normed and Banach Spaces

6 Banach Fixed Point Theorem

7 Approximation Theory

8 Spectral Theory for Linear Operators

9 Compact Linear Operators

10 Spectral Theory for Bounded Self-Adjoint Linear Operators

11 Unbounded Linear Operators for Hilbert Spaces

12 Unbounded Linear Operators in Quantum Mechanics

13 Digged Hilbert Spaces

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Quantum Computation and Quantum InformationDepartment PhysicsDivision in the Dept. Physics



FİZ 529 Fall Master Elective Turkish 3 0 3 5Course Prerequisites FİZ 506 Mathematical Methods in Physics

Name of Instructors

Yrd. Doç. Dr. Cenk AKYÜZ


Adnan Menderes Üniversitesi Fen-edebiyat Fakültesi Fizik Bölümü Aytepe Mevkii 09100 AYDIN. E-mail: [email protected]


In quantum computation and quantum information theory, some fundamental cımcepts are investigated in graduate level.

Textbook and Supplementary readings1 Qantum Computation and Quantum Information, Authors: Michael A. Nielsen, Isaac L. Chuang2 Principles of Quantum Computation and Information Vol.I-II, Authors: Giuliano Benenti, Giulio Casati,

and Giulianı Strini3 Classical and Quantum Computing, Authors: Yorick Hardy and Willi-Hans Steeb4 The Pyhsics of Quantum Information, Authors: Dirk Bouwmeester, Artur Ekert, and Anton Zeilinger5 Lectures on Quantum Information, Authors: Dagmar Brub and Gerd Leuchs


1 Introduction to the fundamental concepts of quantum computation and quantum information.

2 A brief overview of quantum mechanics.

3 Quantum circuits.

4 Introduction to quantum algorithms

5 Shor’s factoring algorithms

6 Grover’ search algorithm.

7 Entanglement.

8 Entanglement applications: Quantum teleportation, entanglement swapping, and superdense coding.

9 Quantum cryptongraphy.

10 Quantum noise and quantum error correction.

11 Entropy and information.

12 Shannon entropy and von Neumann entropy.

13 Physical realizations of quantum computers.

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Statistical MechanicsDepartment PhysicsDivision in the Dept.



FİZ 502 Spring Master of Science Opt. Turkish 3 0 3 5


Name of Instructors








1 Helmholtz, Enthalpy and Gibbs functions

2 Maxwell relations

3 Macroskopic and microskopic states

4 Classical ideal gas, Phase space

5 Microcanonic, Canonic and Grand canonic ensembles,

6 Microcanonic, Canonic and Grand canonic ensembles

7 The equipartition function

8 Nernst postulate, Landau-Ginzburg phase theorem

9 Distribution functions

10 Entropy concept

11 Quantum Statistical mechanics

12 Fermi-Dirac and Bose-Einstein distributions

13 Interacting particles

14 Final Exam


DEPARTMENT OF PHYSICSCourse Title Condensed Matter Physics IIDepartment PhysicsDivision in the Dept. Physics



FIZ 504 Spring Master Science Opt. Turkish-

English 3 03

5


Name of Instructors





To provide the properties of solids through clear and detailed treatments of fundamental theoretical concepts are explored and understanded by students

The course relates to crystal structures and the behaviour of electrons in crystal.

Textbook and Supplementary readings1 Introduction to Solid state Physics, Charles Kittel, University of California, Berkeley, John Wiley&Sons,

Inc., 2005, (8.Baskı)2 Solid State Physics, Neil W. Ashcroft, and N. David Mermin, Cornel University, Thomson Learning, 19763 The physics of Solids, Richard Turton, Oxford University Press, Oxford, 20004 Solid State Physics, F. Wooten and D. Weaire, Volume 2, Academic Pres, New York, 1987


1Crystal sturucture; fundamental types of lattices, symetry and index systems for crystal planes

2 Wave diffraction and the reciprocal lattice

3 Crystal Binding

4 Elastic waves and elastic constans

5 Phonons; Vibrations of crystal lattice

6 Steady of crystals and transitions of structural phase

7 Thermal properties of crystals

8 Electrical properties of crystals

9 Magnetic properties of crystals

10 Midterm exam

11 Inelastic scattering by phonon

12 Energy bands of solids

13 Metals and insulators

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Mathematical methods in PhysicsDepartment PhysicsDivision in the Dept.

Code Term Level Type Language Credit hours/week


FİZ 506 Spring Master of Science Obl. Turkish 3 0 3 10


Name of Instructors





The purpose of course is to give information about basic principles of phase transitions.

Textbook and Supplementary readings1 Fizikte Matematiksel Yöntemeler, Bekir Karaoğlu, Seyir Yayıncılık2 Mathematical Methods for Physicists, G. Arfken34


1 Vektör analyzes

2 Vektör analyzes

3 Coordinat systems

4 Integral Theorems

5 Matrix ve determinants

6 Matrix ve determinants

7 Eigenvalue problem

8 Kompleks Analyzes

9 Kompleks Analyzes

10 Kompleks Analyzes

11 Differential equations



14 Final Exam


DEPARTMENT OF PHYSICS Course Title Classical ElectrodynamicsDepartment PhysicsDivision in the Dept. Physics



FİZ 508 Spring Master Obl. Turkish 3 0 3 10Course Prerequisites None

Name of Instructors





To teach to fundamentals of classical electrodynamics and applications

Textbook and Supplementary readings1 Classical Electrodynamics, John David Jackson2 Classical Electromagnetic radiation, Jerry B. Marion3 Introductions to Electrodynamics, D.J.Griffits 4 Classical Electrodynamics, W. Greiner


1 Introduction to electrostatics

2 Boundary-value problems

3 Electrostatics of macroscopic media

4 dielectrics and magnetostatics

5 Time-varying fields

6 Maxwell’s equations, conservations laws

7 Plane electromagnetic waves, propagation of waves, radiating systems

8 scattering and diffraction

9 Special theory of relativity

10 theory of relativistic particle and electromagnetic fields

11 Radiation by moving charges

12 radiation damping

13 self fields of particles

14 Final Exam


DEPARTMENT OF PHYSICSCourse Title Computer Simulations in Physics IIDepartment PhysicsDivision in the Dept. Physics



FIZ 510 Spring Master Scienece Opt. Turkish-

English 2 2 3 5


Name of Instructors





Program is intended to provide to students the ability to write computer algorithm for various problems in physics and solve them by various methods.

Textbook and Supplementary readings1 H.Gould,J.Tobochnik,An Introduction to Computer Simulation Methods,Application to Physical

Problems,Addison-Wesley ,New York,1996.2 W.H.Press,B.P.Flannery,Numerical Recipes,Cambridge University Press,Cambridge,1987.3 B.Karaoğlu,Sayısal Fizik,Seyir Yayınevi,2004 ,Istanbul.4


1 Programing for Simple Nonlinear Systems-Duffing,Van der Pol Oscillators

2 Chaotic Motions of Dynamical Systems

3 Random Processes in Physics-Random Walk and Fermat Principle

4 Simulations of Normal Modes and Simple Waves.

5 Simulations of Some Electrostatics Problems

6 Introduction To Monte Carlo Methods

7 Simulation for Some Simple Spin Systems

8 Introduction to Moleculer Dynamics

9 Simulation of Ideal Gas System

10 Comparison of Molecular Dynamic and Monte Carlo Methods

11 Simulation of Mapping in someNonlinear Systems-Logistic Equation

12 Nonlinear Systems and Introduction to Bifurcation

13 Introduction to Chaos and Complexity in some systems

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Quantum MechanicsDepartment PhysicsDivision in the Dept. Physics


Lecture Lab Credit ECTS CreditFİZ 512 Spring Master Opt. Turkish 3 0 3 5


Name of Instructors





Introducing physical structures of micro systems using quantum theory.

Textbook and Supplementary readings1 Quantum Mechanics: Foundations and Applications (Author: Arno Bohm)2 Quantum Mechanics: (Authors: Claude Cohen-Tannoudji, Bernard Diu, Frank Laloe )3 Quantum Mechanics (Author: L.E Ballantine)4 Quantum Mechanics: A Modern Development (Author: B.H. Bransden & C.J. Joachain)


1 Harmonic Oscillator --

2 Atoms with one Electron: Hydrogen Atom --

3 Helium and Multi-electron Atoms --

4 Identical Particles and Second Quantization --

5 Approximation Methods 1: Variational Methods and WKB Approximation

--

6 Application of Time Independent Perturbation Theory --

7 Application of Time Dependent Perturbation Theory,Fermi’ s Golden Rule

--

8 Introduction to Scattering: Basics --

9 Scattering in One Dimension --

10 Scattering in Two and Three Dimensions --

11 Resonance and Decay --

12 Quantum Jump Experiments --

13 Time in Quantum Mechanics --

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Advanced topics in Mathematical PhysicsDepartment PhysicsDivision in the Dept.


http://www.amazon.com/exec/obidos/search-handle-url/ref=ntt_athr_dp_sr_3?_encoding=UTF8&search-type=ss&index=books&field-author=Frank%20Laloe

http://www.amazon.com/exec/obidos/search-handle-url/ref=ntt_athr_dp_sr_2?_encoding=UTF8&search-type=ss&index=books&field-author=Bernard%20Diu

http://www.amazon.com/exec/obidos/search-handle-url/ref=ntt_athr_dp_sr_1?_encoding=UTF8&search-type=ss&index=books&field-author=Claude%20Cohen-Tannoudji




Name of Instructors





The purpose of course is to give information about basic principles of mathematical physics.

Textbook and Supplementary readings1 Fizikte Matematiksel Yöntemeler, Bekir Karaoğlu, Seyir Yayıncılık2 Mathematical Methods for Physicists, G. Arfken34


1 Orthogonal functions

2 Orthogonal functions

3 Fourier and Laplace transformations






9 Solution wih Frobenius method, Linear equation systems



12 Partial differential equations

13 Partial differential equations

14 Final Exam



Course Title Relativistic Quantum MechanicsDepartment PhysicsDivision in the Dept. Physics


Lecture Lab Credit ECTS CreditFİZ 516 Spring Master Elective Turkish 3 0 3 5


Name of Instructors





Introducing mathematical structure and applications of relativistic quantum mechanics.

Textbook and Supplementary readings1 The Quantum Theory of Fields, Volume 1: Foundations (Author: S. Weinberg)2 The Quantum Theory of Fields, Volume 2: Modern Applications (Author: S. Weinberg)3 Relativistic Quantum Mechanics (Author: P. Strange)4 Quantum Mechanics: A Modern Development (Authors: B.H. Bransden & C.J. Joachain)


1 Quantum Theory of Radiation --

2 Quantization of Electrodynamics --

3 Klein Gordon Equation --

4 Dirac Equation --

5 Application of Dirac Equation --

6 Second Quantization --

7 Symmetries --

8 Fields and Interaction --

9 Quantum Electrodynamics --

10 Introduction to Renormalization --

11 Symmetries and Gauge Theories --

12 Path Integrals --

13 Quantum Chronodynamics --

14 Final Exam


DEPARTMENT OF PHYSICSCourse Title Technology of thin filmsDepartment PhysicsDivision in the Dept. Physics



FIZ 518 Spring Master Scienece Opt. Turkish-

English 3 0 3 5


Name of Instructors





To provide The students understood in detail the deposition techniques using in the preparation of thin films, and the importance in scientific and technological applications of thin films To explore both deposition techniques and the use in the scientific and technological field of thin films

Textbook and Supplementary readings1 Preparation of Thin Films, Joy George, Marcel Dekker, Inc., New York, 19922 Vacuum Deposition of Thin films, L. Holland, Chapman&Hall Ltd., London, 19613 Science and Technology of Thin Films, F. C. Matacotta and G. Ottaviani, World Scientific Publishing

Co.Pte. Lte., London, 19954 Thin Film Phenomena, K. L. Chopra, McGraw-Hill, New York, 1969


1 Vacuum evaporation techniques.

2 Mean free path of vapour molecules

3Methods of thermal evaporation; resistive heating, laser evaporation, arc evaporation, Radiofrequency heating, flas evaporation, electron beam evaporation

4 The emission characteristics of vapour sources and film thickness distribution

5 Vacuum coating units; O-rings, valves, pumps and gauges of vacuum,

6 Vacuum evaporation sources; Heating flaments and boats

7 Substrates and their cleaning

8 The nucleation, growth ve structural properties in vacuum deposited films

9 Sputtering techniques; magnetron, ion beam and AC sputtering

10 Midterm exam

11 Chemical deposition techniques

12 Others deposition techniques

13 Film thickness monitoring techniques and apparatus

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Quantum PhysicsDepartment PhysicsDivision in the Dept. Physics



FİZ 520 Spring Master Elective Turkish 2 2 3 5

Course Prerequisites Fiz506 Mathematical Methods in Physics, Fiz511 Quantum Mechanics, Fiz515 Introduction to Group Theory

Name of Instructors






Textbook and Supplementary readings1 Lie Groups and Algebras with Applications to Physics, Geometry and Mechanics

(Authors: D.H Sattinger, O.L. Weaver)2 Lie Groups, Lie Algebras and Some of their Applications (Author: R. Gilmore)3 Symmetry in Physics (Authors: J.P. Elliot, P.G. Dawber)4 Group Theory in Physics (Author: Wu-Ki Tung)


1 Basic Principles of Group Theory --

2 Representation of Groups --

3 Character Tables and Crystal Structures --

4 Tensors and Symmetry --

5 Energy Bands in Solids --

6 Crystal Field Structure --

7 Spin and Angular Momentum --

8 Selection Rules and Parity --

9 Molecular Vibrations and Normal Mods --

10 Representations of Causal Poincare Group --

11 Semi Groups --

12 Representation of Semi Groups --

13 Asymmetric Time Evolution --

14 Final Exam



Course Title One Dimensional Nonlinear Crystal LatticesDepartment PhysicsDivision in the Dept. Physics


Lecture Lab Credit ETSC Credit

FIZ 522 Spring Master Science Opt. Turkish-

English 3 0 3 5


Name of Instructors





Program is intended to provide to students the ability to deal with nonlinear waves in one dimensional nonlinear lattices.

Textbook and Supplementary readings1 M.Remoissenet,Waves Called Solitons,Springer ,2004,NewYork2 L.N.Virgin,Introduction to Experimental Nonlinear Dynamics,Cambridge University

Press,2000,Cambridge3 M.Toda,Nonlinear Waves and Solitons,Kluwer Academic Publishers,1989,London4


1 Introduction to Nonlineer Systems

2 Investigation of 1D lineer lattices

3 Investigation of wave propagation in 1D lattices and dispersion relation

4 Investigation of differences between linear and nonlinear lattices

5 Wave propagation in lineer lattices nad dispersion

6 Wave Propagation in nonlinear lattices and effect of nonlinearity

7 Solitons and relation between dispersion and nonlinearity

8 Investigation of interaction between normal modes

9 Investigation of stability of certain modes

10 Modulations and investigation of their stability

11 Modulational instability

12 Properties Nonlinear Transmission line

13 Investigation of wave propagation in nonlinear transmission lines

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Special topics in StatisticalDepartment PhysicsDivision in the Dept.





Name of Instructors








1 Statistical mechanics of interacting systems

2 Statistical mechanics of interacting systems

3 Spin models, Ising model

4 Spin models, Ising model

5 BC and BEG model

6 BC and BEG model

7 Ising-Heisenberg model

8 Ising-Heisenberg model

9 Cluster variation method

10 Cluster variation method

11 Recurrence method



14 Final Exam


DEPARTMENT OF PHYSICS Course Title Advanced Atomic and Molecular Physics II

Department PhysicsDivision in the Dept. Atomic and molecular physics



FIZ 526 Spring Master Elective Turkish 3 0 3 5


Name of Instructors





To teach molecular structure, molecular spectroscopy and application fields of molecular spectroscopy

Textbook and Supplementary readings1 Atom ve molekül fiziği, B. H. Bransden and C. J. Joachain2 Molecular Physics: theoretical principles and experimental methods, Wolfgang Demtroder3 Molecular Physics and elements of quantum chemistry, Introduction to experiments and theory, Hermann

Hakan, Willian D. Brewer4 Advances in atomic, molecular and optical physics, Benjamin Bederson, Harbert Walther


1 Introduction of molecular physics and molecular structure

2 Diatomic molecules, Born Oppenheimer separation

3 The rotation and vibration of diatomic molecules

4 Electronic structure of diatomic molecules

5 The structure of polyatomic molecules

6 Molecular spectra

7 Vibrational-rotational spectra of diatomic molecules

8 Electronic spectra of diatomic molecules

9 Electronic spin and Hund states

10 Atomic collisions

11 Electron-atom collisions

12 Atom-atom collisions

13 Applications of molecular spectroscopy

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Magnetic Resonance IIDepartment PhysicsDivision in the Dept. Atomic and molecular physics



FİZ 528 Spring Master Elective Turkish 3 0 3 5Course Prerequisites None

Name of Instructors





To teach applications of magnetic resonance

Textbook and Supplementary readings1 Manyetik Rezonans, Fevzi Apaydın2 The principles of nuclear magnetism, A. Abragam3 EPR elementary theory and practical applications, J. E. Wertz, J. R. Bolton4 NMR Imaging in Biomedicine, P. Mansfield, P. G. Morris


1 Nuclear Magnetic Resonance at solids

2 Dipol-dipol interaction, second moment

3 Nuclear Magnetic Resonance at liquids

4 Chemical shift, spin-spin coupling

5 Electron Paramagnetic Resonance at liquids

6 g-factor, hyperfine splitting

7 Electron Paramagnetic Resonance at single crystal

8 g-tensor, A-tensor, quadrupole interactions

9 Double resonance

10 Dynamic Nuclear Polarization

11 ENDOR

12 NMR imaging, relaxation processes

13 Clinical applications of NMR Imaging

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Density Functional TheoryDepartment PhysicsDivision in the Dept. Physics




Name of Yrd. Doç. Dr. Ethem AKTÜRK

InstructorsInstructor Information

Adnan Menderes Üniversitesi, Fen Edebiyat Fakültesi, Fizik Bölümü Aytepe Mevkii 09100 AYDIN. E-mail: [email protected]


1. Introduction to Density Functional Theory2. Kohn-Sham Equation

Textbook and Supplementary readings1 Electronic Structure Basic Theory and Practical Methods, Cambridge Universty pres, (2004), Author:

R.M.Martin2 Density Functional Methods in Chemistry and Materials Science, John Willley and Sons, (1997), Author:

M. Springborg.3 Computational Physics, Cambridge University Press, (2007), Author: J. Thijssen


1 Introduction

2 Introduction to Density Functional Theory

3 Born-Oppenheimer Approximation

4 The Hartree-Fock Theory

5 Thomas-Fermi Theory

6 The Hohenberg-Kohn Theorem

7 The Kohn-Sham Equation

8 The Solution of the Plane Waves

9 Local Density Approximation

10 Generalized Gradient Approximation

11 Pseudopotentials

12 Ultrasoft Pseudopotentials

13 A brief description of some of the molecular Dynamics method, Car-Parinello, Tight Binding Approximation

14 Final Exam


DEPARTMENT OF PHYSICS Course Title Group Theory for PhysicistDepartment PhysicsDivision in the Dept. Physics




Name of Instructors

Assist. Prof. Haydar UNCU


Adnan Menderes Üniversitesi, Fen Edebiyat Fakültesi, Fizik Bölümü Aytepe Mevkii 09100 AYDIN. E-mail: [email protected]



Textbook and Supplementary readings1 Symmetry in Physics (Yazarlar: J. P. Elliot, P. G. Dawber)2 Lie Groups and Algebras with Applications to Physics, Geometry and Mechanics (Yazarlar: D.H

Sattinger, O.L. Weaver)3 Lie Groups, Lie Algebras and Some of their Applications (Yazar: R. Gilmore)4 Group Theory in Physics (Yazar: Wu-Ki Tung)


1 Groups and their Properties

2 Linear Algebra and Vector Spaces

3 Group Representations

4 Symmetry in Quantum Mechanics

5 Molecular Vibrations

6 Continuous Groups and their Representations

7 Angular Momentum and the Group

8 Point Groups with an Application to Crystal Fields

9 Isospin and the Group SU2

10 The Group SU3 with Applications to Elemantary Particles

11 Irreducible Representations of SU3

12 Supermultiplets in Nuclei and Elementary Particles

13 Space and Time

14 Final Exam


· web viewqantum computation and quantum information, authors: michael a. nielsen, isaac l....

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