Subject Name
|
Advanced Theory of Quantum Electronics
|
Teacher Name
|
Tomoyuki Sasaki
|
Class
|
|
Semester
|
the second term
|
Term
|
The second term
|
Lecture Form
|
lecture
|
Unit Count
|
2
|
Matter of Prepare
|
|
Note
|
12CBA5
|
Instructor’ room /contact information
|
Room 604, Denki-building 1, Ext 9530
|
Purpose and objective Goals
|
Objective of the lecture Novel devices and materials in the fields of photonics and quantum electronics are learned. Achievement targets -To investigate novel devices and materials in the fields of photonics and quantum electronics. -To clarify their characteristics, applications, problems, etc., and to explain them logically.
|
Keywords
|
laser, LED, solar cell, display, photonic crystal, metamaterial, optical fiber, optical modulator, optical detector, optical resonator, integrated optics, photonics, terahertz technology, quantum optics
|
Contents and method
|
Novel devices and materials in the fields of photonics and quantum electronics are described based on research papers. Each student reviews recent papers related to one of the keywords, and provides a presentation on the content. All students discuss the presentation. The lecturer assigns homework to the students as necessary.
|
Topics
|
1) Outline of advanced theory of quantum electronics 2) Quantum optics 1 3) Quantum optics 2 4) Quantum optics 3 5-15) Devices and materials in the fields of photonics and quantum electronics
|
Outside-classroom work (preparation and review)
|
To enhance a learning effect, students are encouraged to prepare for and review the lecture for around 90 minutes each.
|
Textbooks
|
|
Reference materials
|
|
Evaluation method and Assessment points
|
The grade will be determined based on the following percentages; the review of the papers is 40%, the presentation is 30%, and the discussion is 30%.
|
Prerequisite / other notes
|
It is desirable that the students have fundamental knowledge of photonics and quantum electronics.
|
Reference homepage
|
|
Reference URLs
|
|