Course title
1M9020001
Advanced Quantum-beam Applications

 nishikawa hiroyuki Click to show questionnaire result at 2017
Course content
The word “quantum” refers to discrete units of matter and energy, such as electron, ions, photons, and neutrons, etc. Our daily lives are surrounded by the quanta in nature, such as photons from the sun and energetic ions in plasma of auroras. If we can produce, extract, and control the quanta as a beam, we can utilize the quantum beam for analysis, fabrication, and even for medical applications.

In this lecture, various techniques for quantum beam applications will be introduced to understand how the advanced technologies have been developed for advanced science, manufacturing industry, and medical applications.
Purpose of class
Quantum beam technologies have been indispensable to our daily things and lives. The purpose of the class is to understand how the advanced technologies have been developed for advanced science, manufacturing industry, and medical applications. Participants of this class can gain basic knowledge to understand and explore the rapidly growing technology areas.
Goals and objectives
  1. Demonstrate the ability to explain the basic properties of particles, such as photons and charged particles
  2. Demonstrate the ablitity to explain the methods to produce and control quantum beams
  3. Demonstrate the ablitity to present the knowledge on the techniques used in quantum beam applications
Language
Japanese(English accepted)
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Guidance and introduction to the course. Introduction to quantum beam applications. Check out the word "quantum" and review texts for introductory quantum mechanics learned in the undergraduate program. 190minutes
2. Photons and charged particles. Wave particle duality. Reading materials assigned for the next week. 190minutes
3. Light beam 1, Light sources (lasers, plasma) Reading materials assigned for the next week. 190minutes
4. Light beam 2, Basic optical system Reading materials assigned for the next week. 190minutes
5. Light beam 3, Optics for beam steering Reading materials assigned for the next week. 190minutes
6. Charged particle beam 1, Electron and ion source, beam transport Reading materials assigned for the next week. 190minutes
7. Charged particle beam 2, Electron and ion beam optics Reading materials assigned for the next week. 190minutes
8. Interaction of quantum beams with matters 1, Photons and matters. Reading materials assigned for the next week. 190minutes
9. Interaction of quantum beams with matters 2, Electrons and matters Reading materials assigned for the next week. 190minutes
10. Interaction of quantum beams with matters 3, Ions with matters Reading materials assigned for the next week. 190minutes
11. Quantum beam applications 1, analysis and fabrication using light beam Reading materials assigned for the next week. 190minutes
12. Quantum beam applications 2, analysis and fabrication using electron beam Reading materials assigned for the next week. 190minutes
13. Current topics on quantum beam applications 1 Reading materials assigned for the next week. 190minutes
14. Current topics on quantum beam applications 2 Reading materials assigned for the next week. 190minutes
Total. - - 2660minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Reports Presentations Total.
1. 10% 20% 30%
2. 10% 20% 30%
3. 20% 20% 40%
Total. 40% 60% -
Evaluation method and criteria
Students will be comprehensively evaluated based on reports 40% and presentations relating to electrical materials 60%.
Total scores of more than 60% is required to pass the course.
Textbooks and reference materials
Technical papers from related journals in the fields of quantum beam applications.
Prerequisites
Knowledge on electromagnetics, optoelectronics, quantum physics, electrical, electronic, and photonic materials in the research fields of each participant.
Office hours and How to contact professors for questions
  • Tuesday, 12:30-13:10
Relation to the environment
Non-environment-related course
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
  • Non-social and professional independence development course
Active-learning course
More than one class is interactive
Course by professor with work experience
Work experience Work experience and relevance to the course content if applicatable
N/A N/A
Last modified : Thu Mar 21 14:58:24 JST 2019