

Course 
This semester:
EE3911: Partial Differential Equations and Numerical Methods(Spring, 2012):
 E. Kreyszig, "Advanced Engineering Mathematics", 9th Ed., John Wiley & Sons, Inc., (2006).
Basics of Numerical Mthods, 4 weeks.
Numerical Methods for PDEs, 5 weeks.
Eigenfunction Expansion (Special functions), 2 weeks.
ImpulseResponse Methods (Green's function), 2 weeks.
Calculus of Variations Methods, 1 week.
Undergraduate:
EE2015: Differential Equations and Complex
Variables (Fall 2010, Fall 2009).
 E. Kreyszig, "Advanced Engineering Mathematics", 9th Ed., John Wiley & Sons, Inc., (2006).
Introduction to Defferential Equations and Complex Variables, 9/13.
Firstorder ODEs, Ch. 1, 9/15, 9/20.
Secondorder ODEs, Ch. 2, 9/22, 9/27, 9/29, 10/4, 10/6.
Higherorder 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.13Ch.16, 12/20  1/12.
Fifth Exam, 1/13 (Friday night).
Homeworks x 15, 30%;
Exams x 5, 70%.
RK: 3:005:00PM, 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).
 M. Fox, "Quantum Optics, An Introduction", Oxford (2006).
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).
1, Introduction,
2, Classical Optics,
3, Quantum Mechanics,
4, Radiative transitions in atoms,
5, Photon Statistics,
6, Photon Antibunching,
7, Cohernet and Squeezed States,
8, Photon Number States,
9, Resonant LightAtom Interactions,
10, Atoms in Cavities,
11, Cold atoms,
12, Quantum Information Processing, Quantum Cryptography, Quantum Computing, and Quantum Teleportation
Homeworks, Exams, and Semester
Oral Report.
RK: 3:305:00PM, 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).
Undergraduate:
EE3131: Optoelectronic Engineering II (Spring 2010).
 E. Hecht, "Optics," 4th edition, Addison Wesley (2001).
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.
Exams x 2, 80%;
Oral report x 1, 20%.
RK: 3:305:00PM, Thursday at Room 523, EECS bldg.
TA: 3:305:00PM, Monday at Room 521, EECS bldg.
EE3130: Introduction to Optoelectronic Engineering (Spring 2007).
EE2020: Partial Differential Equations and Complex
Variables (Spring 2009).


