aut aut      aut aut
   
  Courses 

 Electromagnetics(FALL_2017)

Aims:

Introduction to engineering electromagnetics

Syllabus:

  • A review on vector analysis
  • Electrostatic fields in free-space
  • Electrostatic fields in matter
  • Magnetostatic fields in free-space
  • Magnetostatic fields in matter

Text Book:

  • D. K. Cheng, Field and Wave Electromagnetics. 1983.


 Numerical Techniques in Electromagnetics(FALL_2017)

Aims:

Introduction to numerical techniques in solving EM problems

Syllabus:

  • Finite difference methods
  • Finite Element methods
  • Method of Moments
  • Fast hybrid methods

Text Book:

  • M. Sadiku, Numerical Techniques in Electromagnetics, CRC press, 2001.
  • J. Jin, The Finite Element Method in Electromagnetics. 2014.
  • A. Taflove and S. C. Hagness, Computational Electrodynamics The Finite-Difference Time-Domain Method, Third. 2005.
  • Integral Equation Methods for Electromagnetics
  • R. F. Harrington, Field Computation by Moment Methods. IEEE press, 1993.
  • W. C. Chew, J.-M. Jin, E. Michielssen, and J. Song, Fast and Efficient Algorithms in Computational Electromagnetics, Artech House, 2001.


 Fiber Optics(SPRING_2017)

Aims:

Introduction to optical fiber communication and devices

Syllabus:

  • Introduction
  • Optical fibers: structures, waveguiding and fabrication
  • Attenuation and dispersion in optical fibers
  • Optical sources
  • Power launching and coupling
  • Photodetectors
  • Optical amplifiers
  • Measurements
  • Sensing and Imaging

Text Book:

  • J. Senior and M. Jamro, Optical fiber communications: principles and practice, Pearson Education Limited, 2009.


 Photonics(SPRING_2017)

Aims:

Introduction to design and analysis of photonics structures

Syllabus:

  • Ray Optics
  • Wave Optics
  • Beam Optics
  • Electromagnetic Optics
  • Polarization Optics
  • Photonic Crystals
  • Guided wave Optics
  • Resonator Optics

Text Book:

  • Saleh, B. E. A., and Teich, M. C. (2007). Fundamentals of Photonics.


 Advanced Engineering Mathematics(FALL_2016)

Aims:

تسلط بر مباني رياضي الکترومغناطيس

Syllabus:

  • - Linear Analysiso Function spaceso Functional and distributionso Linear operatorso Sturm-Liouville operators
  • Greens functions
  • Spectral representation methods
  • EM Sources
  • EM Boundary Value Problems
  • Variational methods

Text Book:

  • D. Dudley, Mathematical Foundations for Electromagnetic Theory, vol. 1. 1994.
  • J. Van Bladel, Singular Electromagnetic Fields and Sources. IEEE press, 1991
  • G. W. Hanson and A. B. Yakovlev, Operator Theory in Electromagnetics: An Introduction. Springer Verlag, 2002


 Electromagnetics(FALL_2016)

Aims:

Introduction to engineering electromagnetics

Syllabus:

  • A review on vector analysis
  • Electrostatic fields in free-space
  • Electrostatic fields in matter
  • Magnetostatic fields in free-space
  • Magnetostatic fields in matter

Text Book:

  • D. K. Cheng, Field and Wave Electromagnetics. 1983.


 Numerical Analysis(FALL_2016)

Aims:

Understanding the basic methods of numerical analysis in engineering and implementing their numerical codes

Syllabus:

  • Roots and Optimization
  • Error Analysis
  • Linear Systems
  • Curve Fitting
  • Numerical Integration and Differentitation
  • Ordinary Differential Equations

Text Book:

  • S. C. Chapra, Applied Numerical Methods with MATLAB® for Engineers and Scientists, 2012.
  • S. C. Chapra and R. P. Canale, Numerical methods for engineers, vol. 33, no. 3. McGraw-Hill Science/Engineering/Math, 2015.


 Numerical Techniques in Electromagnetics(FALL_2016)

Aims:

Introduction to numerical techniques in solving EM problems

Syllabus:

  • Finite difference methods
  • Variational methods
  • Method of Moments
  • Fast hybrid methods

Text Book:

  • M. Sadiku, Numerical Techniques in Electromagnetics, CRC press, 2001.
  • R. F. Harrington, Field Computation by Moment Methods. IEEE press, 1993.
  • J. Jin, The Finite Element Method in Electromagnetics. 2014.
  • W. C. Chew, J.-M. Jin, E. Michielssen, and J. Song, Fast and Efficient Algorithms in Computational Electromagnetics, Artech House, 2001.
  • A. Taflove and S. C. Hagness, Computational Electrodynamics The Finite-Difference Time-Domain Method, Third. 2005.


 Fiber Optics(SPRING_2016)

Aims:

Introduction to optical fiber communication and devices

Syllabus:

  • Introduction
  • Optical fibers: structures, waveguiding and fabrication
  • Attenuation and dispersion in optical fibers
  • Optical sources
  • Power launching and coupling
  • Photodetectors
  • Optical amplifiers
  • Measurements
  • Sensing and Imaging

Text Book:

  • J. Senior and M. Jamro, Optical fiber communications: principles and practice, Pearson Education Limited, 2009.
  • G. Keiser, Optical Fiber Communications, McGraw-Hill, 2010.


 Numerical Analysis(SPRING_2016)

Aims:

Understanding the basic methods of numerical analysis in engineering and implementing their numerical codes

Syllabus:

  • Roots and Optimization
  • Error Analysis
  • Linear Systems
  • Curve Fitting
  • Integration and Differentiation
  • Ordinary Differential Equations

Text Book:

  • S. C. Chapra, Applied Numerical Methods with MATLAB® for Engineers and Scientists, 2012.


 
 
© AUT All rights reserved.
AUT is not responsible for the content of external sites.
 
424 Hafez Ave, Tehran, Iran, 15875-4413. +98 (21) 64540