Theoretical Optics Group

Ray-Kuang Lee's group

National Tsing Hua University, Taiwan

  
Today:
Update: Sep.. 15, 2011
 
 
 
 

  
Course

This semester:

EE3911: Partial Differential Equations and Numerical Methods(Spring, 2012):

  • Textbook: E. Kreyszig, "Advanced Engineering Mathematics", 9th Ed., John Wiley & Sons, Inc., (2006).
  • Syllabus:
    Basics of Numerical Mthods, 4 weeks.
    Numerical Methods for PDEs, 5 weeks.
    Eigenfunction Expansion (Special functions), 2 weeks.
    Impulse-Response Methods (Green's function), 2 weeks.
    Calculus of Variations Methods, 1 week.

Under-graduate:

EE2015: Differential Equations and Complex Variables (Fall 2010, Fall 2009).

    • Textbook: E. Kreyszig, "Advanced Engineering Mathematics", 9th Ed., John Wiley & Sons, Inc., (2006).
    • Syllabus:
      Introduction to Defferential Equations and Complex Variables, 9/13.
      First-order ODEs, Ch. 1, 9/15, 9/20.
      Second-order ODEs, Ch. 2, 9/22, 9/27, 9/29, 10/4, 10/6.
      Higher-order and Systems of ODEs, Ch. 3 and Ch. 4, 10/11, 10/13.
      First Exam, 10/14 (Friday night).
      Laplace transfroms, Ch. 6, 10/18 - 11/3.
      Second Exam, 11/4 (Friday night).
      Power Series, Ch. 5, 11/8, 11/10.
      Fourier Series, Ch. 11, 11/15, 11/17, 11/22, 11/24.
      Third Exam, 11/25 (Friday night).
      Partial Differential Equations, Ch. 12, 11/29, 12/1, 12/6, 12/8, 12/13, 12/15.
      Fourth Exam, 12/16 (Friday night).
      Complex Variables, Ch.13-Ch.16, 12/20 - 1/12.
      Fifth Exam, 1/13 (Friday night).
    • Evaluation:
      Homeworks x 15, 30%;
      Exams x 5, 70%.
    • Office hours:
      RK: 3:00-5:00PM, Tuesday and Thursday at Room 523, EECS bldg.
      TA: to be annouced.
    • For more information and course slides: http://mx.nthu.edu.tw/~rklee

     

 

Graduate:

IPT5340/PHY6840: Quantum Optics (Spring 2010, Spring 2009, Spring 2008, Fall 2006).

  • Textbook: M. Fox, "Quantum Optics, An Introduction", Oxford (2006).
  • References:
  • D.F. Walls, G.J. Milburn, "Quantum Optics", 2nd Ed. Springer (2008).
    Marlan O. Scully, and M. Suhail Zubairy, "Quantum Optics", Cambridge (1997).
    Yoshihisa Yamamoto, Atac Imamoglu, "Mesoscopic Quantum Optics", Wiley (1999).
  • Syllabus:
    1, Introduction,
    2, Classical Optics,
    3, Quantum Mechanics,
    4, Radiative transitions in atoms,
    5, Photon Statistics,
    6, Photon Anti-bunching,
    7, Cohernet and Squeezed States,
    8, Photon Number States,
    9, Resonant Light-Atom Interactions,
    10, Atoms in Cavities,
    11, Cold atoms,
    12, Quantum Information Processing, Quantum Cryptography, Quantum Computing, and Quantum Teleportation
  • Evaluation:
    Homeworks, Exams, and Semester Oral Report.
  • Office hours:
    RK: 3:30-5:00PM, Thursday at Room 523, EECS bldg.

IPT5240: Electromagnetic Waves in Optoelectronics (Fall 2008, Fall 2005).

IPT5260: Computational Methods for Optoelectronics (Fall 2007, Spring 2007, Spring 2006).

Under-graduate:

EE3131: Optoelectronic Engineering II (Spring 2010).

  • Textbook: E. Hecht, "Optics," 4th edition, Addison Wesley (2001).
  • Syllabus:
    Superposition of Waves, [Textbook: Ch. 7]
    Interfernece, [Textbook: Ch. 9]
    Diffraction, [Textbook: Ch. 10]
    First Exam,
    Fourier Optics, [Textbook: Ch. 11]
    Cohernece Theory, [Textbook: Ch. 12]
    Photon optics, Laser, and Nonlinear optics, [Textbook: Ch. 13]
    Final Exam and Semester oral report.
  • Evaluation:
    Exams x 2, 80%;
    Oral report x 1, 20%.
  • Office hours:
    RK: 3:30-5:00PM, Thursday at Room 523, EECS bldg.
    TA: 3:30-5:00PM, Monday at Room 521, EECS bldg.

EE3130: Introduction to Optoelectronic Engineering (Spring 2007).

EE2020: Partial Differential Equations and Complex Variables (Spring 2009).

 


 

 

 

 

E. Kreyszig, "Advanced Engineering Mathematics," 9th Edition, Wiley (2006).

 

D.F. Walls and G.J. Milburn, "Quantum Optics," Springer (2008).