For high speed and high capacity data transmission, opto-electronic technologies ,such as lasers, optical fibers, and optical
memory have been utilized and developed for telecommunication systems, which is an important infrastructure of our modern
society.
The lecture provides students with overview on the basic prooperties of light and various optical elements. Then, quantum theory and lasers and its applications are introduced. Finally, basic knowledge of the optoelecronic communication based on opto-electronics is discussed.
The lecture provides students with overview on the basic prooperties of light and various optical elements. Then, quantum theory and lasers and its applications are introduced. Finally, basic knowledge of the optoelecronic communication based on opto-electronics is discussed.
Various properties of light have been effectively utilized for liquid crystal displays, communication equipments, and lighting
in our daily lives. The aim of this course is to provide students with basic knowledge on opto-electronics based on the wave-particle
duality of light. This enables students to catch up with rapidly developing technlogies in opto-electrnics.
- Demonstrate the ability to explain the properties of light as electromagnetic waves based on Maxwell equations.
- Demonstrate the ability to explain basic phenomena such as reflection, refraction, and interference of light based on simple calculations.
- Demonstrate the ability to explain working principles of various apparatus utilizing opto-electronic technologies.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Introduction to opto-electronics: Guidance, natural light and lasers, monochromatism, directivity | Chapters 1 and 2 of the text | 190minutes |
| 2. | Lightwave and ray (1): Wave-optics, ray-optics, reflection and refraction | Chapter 3 of the text | 190minutes |
| 3. | Lightwave and ray (2): Interference, coherence (Short Test 1) |
Chapter 3 of the text | 190minutes |
| 4. | Lightwave and ray (3): Diffraction and focusing | Chapter 3 of the text | 190minutes |
| 5. | Optical waveguides (1): Light confinement, optical waveguide, waveguide modes (Short Test 2) | Chapter 4 of the text | 190minutes |
| 6. | Optical waveguides (2):Channel waveguides, optical fibers(Short Test 3) | Chapter 4 of the text | 190minutes |
| 7. | Mid-term exam covering the lectures 1-6. | Chapters 1-4 of the text book. | 190minutes |
| 8. | Principles of laser action 1: Spontaneous emission, stimulated emission, and stimulated absorption | Chapter 5 of the text | 190minutes |
| 9. | Principles of laser action 2: Optical cavity, resonant conditions | Chapter 5 of the text | 190minutes |
| 10. | Lasers and light-emitting diodes: Gas lasers, Solid lasers, semiconductor lasers, light-emitting diodes (Short Test 4) | Chapter 6 of the text | 190minutes |
| 11. | Optical passive components, optical active conponents: Polarizers, wavelength filters, splitters, nonreciprocal optics, light detectors | Chapters 7 and 8 of the text | 190minutes |
| 12. | Optical fiber commnunication: Optical fiber commnunication systems, code modulations and transmitted signals, bandwidth and
dispersion,transmission loss of optical fibers, optical multiplexing, optical amplifiers, optical interconnect, etc. (Report assignment) |
Chapter 9 of the text | 190minutes |
| 13. | Optical Memory: Optical disks, optical pickups, history of optical recording, multi-wavelength pickup, optical recording methods
(Short Test 5) Optical metrology and laser applications |
Chapters 10-12 of the text | 190minutes |
| 14. | Final exam and explanation | Chapters 8-14 of the text book. | 190minutes |
| Total. | - | - | 2660minutes |
| Short test 1-5 | Report assignments | mid-term exam | final exam | Total. | |
|---|---|---|---|---|---|
| 1. | 8% | 0% | 15% | 15% | 38% |
| 2. | 8% | 0% | 15% | 15% | 38% |
| 3. | 4% | 20% | 0% | 0% | 24% |
| 4. | 0% | ||||
| Total. | 20% | 20% | 30% | 30% | - |
Objective 1: Short test 1,2、mid-term, final exams
Objective 2: Short test 3,4、mid-term, final exams
Objective 3: Short test 5, report assignments
Total score is calculated by a sum of 20% of short tests 1-5, 60% of the mid-term, final exams and 20% of report assignments.
The total score of more than 60 % is required to pass the course.
Objective 2: Short test 3,4、mid-term, final exams
Objective 3: Short test 5, report assignments
Total score is calculated by a sum of 20% of short tests 1-5, 60% of the mid-term, final exams and 20% of report assignments.
The total score of more than 60 % is required to pass the course.
- Office hours: Tuesday, 12:30~13:10
Contact: Room 11A32, Ext. 8217, e-mail :nishi@sic.shibaura-it.ac.jp
- Course that cultivates an ability for utilizing knowledge
| Work experience | Work experience and relevance to the course content if applicatable |
|---|---|
| N/A | N/A |
Last modified : Thu Mar 21 14:32:44 JST 2019