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ELG5106 - Fourier Optics
Description:
Diffraction: plane waves expansions, angular spectra, 2D Fourier transform, scalar and vector diffraction theory, Fresnel and Fraunhofer diffraction, coherence.
Linear optical systems: Thin lenses, Gaussian beam optics, transmission functions, linear systems theory, imaging, transfer functions, aberration.
Applications: Holography, diffractive optics, gratings, optical correlation.
Prerequisite:-
Course Material: Avilable in ELG5106 Section
Recommended Text: J W Goodman, ‘Introduction to Fourier Optics’, 3rd Edition, Roberts & Company, ISBN 0-9747077-2-4
Grading (Tentative):
Assignments 50%
Project 50%
Timetable:
| Section |
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Activity |
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Day |
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Time |
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Location |
| |
| * ELG5106 (Sep. 7 - Dec. 7) |
|
LEC 1 |
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Tuesday |
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11:30 - 13:00 |
|
SITE 0130 |
|
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LEC 2 |
|
Thursday |
|
10.00 - 11.30 |
|
SITE 0130 |
|
|
TUT |
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LAB 1 |
|
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See note 2 |
| |
| * = |
limited enrolment: Enrolment in the majority of courses
is limited, and courses may be reserved for students registered in
specific programs. The faculty or department concerned may establish
conditions on enrolment in their courses. |
| 2 = |
You must attend all lectures (LEC), all seminars
(SEM), all laboratory groups (LAB) and all discussion groups (DGD)
if applicable
|
ELG6380 - THEORY OF SEMICONDUCTOR DEVICES
Description:
Review of solid state physics underlying device mechanisms. Equilibrium and non-equilibrium conditions in a semiconductor. Carrier transport theory. Physical theory of basic semiconductor device structures and aspects of design: PN junctions and bipolar transistors, field effect devices. Current transport relationships for transistors. Charge control theory. Modelling of device mechanisms. Performance limitations of transistors.
Course Material: Avilable in ELG6380 Section
Recommended Text: R F Pierret, ‘Advanced Semiconductor Fundamentals’, Prentice Hall, Pearson Education, 2003, ISBN 0-13-061792-X
Grading (Tentative):
Assignments 50%
Project 50%
Timetable:
| Section |
|
Activity |
|
Day |
|
Time |
|
Location |
| |
| ELG5103 (Sep. 7 – Dec. 7) |
|
LEC 1 |
|
Tuesday |
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14.30-16.00 |
|
CBY B012 |
|
|
LEC 2 |
|
Thursday |
|
14.30-16.00 |
|
MRT 212 |
|
|
See note 2 |
| |
| 2 = |
You must attend all lectures (LEC), all seminars
(SEM), all laboratory groups (LAB) and all discussion groups (DGD)
if applicable
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