Introduction to Biophotonics
課程介紹
Introduction to Biophotonics
生醫光子學導論 — 114-2 Elective course (3 credits). Photonics fundamentals, biomedical imaging, spectroscopy, and microscopy applications.
✦ Course Information
| Course title | Introduction to Biophotonics / 生醫光子學導論 |
|---|---|
| Semester | 114-2 |
| Designated for | Department of Biomedical Engineering |
| Curriculum Number | DBME5031 |
| Curriculum Identity Number | 528U0180 |
| Credits | 3 |
| Required / Elective | 選修 (Elective) |
| Type | Type 2 |
| Language | 英文授課 (The course is conducted in English.) |
| Joint instructors | LI-AN CHU, TUNG-LIN YANG, YU-HSIANG CHENG, HSIANG-CHIEH LEE, KUNG-BIN SUNG |
| Remarks | Student Quota: 25. Limits on Course Adding / Dropping: Restriction 1 — Juniors and beyond. Restriction 2 — Within this department (including students taking minor and dual degree program). |
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Class Section
| Instructor | Time | Location |
|---|---|---|
| Kevin T. Chen | Wednesday 6, 7, 8 | Rm. 439, Yonglin Biomedical Engineering Hall |
Course Description
An introduction to the fundamental principles, phenomena, devices and systems in photonics and optoelectronics.
Survey of Applications — Medical imaging, Optical imaging etc.
Course Objective
Understand the fundamental principles, phenomena, devices and systems in photonics and optoelectronics.
Gain knowledge of photonics and optoelectronics applications in biomedicine, including microscopy, spectroscopy, medical imaging, and super resolution techniques.
Gain hands-on experience in academic writing, including literature survey, writing a scientific proposal, and peer review.
Course Requirement
- Course Requirement: —
- Student Workload (Expected weekly study hours before and/or after class): After class: 6 hours/week
- Office Hours: —
- Designated reading: —
References
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Grading
(僅供參考)
Grading Policy
NTU has not set an upper limit on the percentage of A+ grades.
Letter Grade System
NTU uses a letter grade system for assessment. The grade percentage ranges and the single-subject grade conversion table in the National Taiwan University Regulations Governing Academic Grading are for reference only. Instructors may adjust the percentage ranges according to the grade definitions. For more information, see the Assessment for Learning Section.
Progress
| Week | Date | Topic |
|---|---|---|
| Week 1 | 2/25 | Light I |
| Week 2 | 3/4 | Light II (Prof. Chu) |
| Week 3 | 3/11 | Waveguides |
| Week 4 | 3/18 | Semiconductors and light emitting diodes |
| Week 5 | 3/25 | Photodetectors |
| Week 6 | 4/1 | Lasers (Prof. Cheng) |
| Week 7 | 4/8 | Polarization |
| Week 8 | 4/15 | Midterm exam |
| Week 9 | 4/22 | Optical spectroscopy techniques (Prof. Sung) |
| Week 10 | 4/29 | Diffuse optics for sensing/imaging applications (Prof. Sung) |
| Week 11 | 5/6 | Optical microscopy and microscope system design (Prof. Chu) |
| Week 12 | 5/13 | Optical coherence tomography (Prof. Lee) |
| Week 13 | 5/20 | Super resolution techniques (Prof. Yang) |
| Week 14 | 5/27 | Electron microscopy and implementation of microscope systems (Prof. Chu) |
| Week 15 | 6/3 | Final quiz |
| Week 16 | 6/10 | Mock study section |
