We show the status of researches of modern physics and explain how it has evolved up to now. First, researches in various fields in modern physics, namely condensed matter physics, particle and nuclear physics, and astrophysics are introduced. Next, students will learn about the "symmetry" that is one of the common theme in various subjects in modern physics.
This course aims to show students how interesting the modern physics is. It also aims to give instructions to the students who are going to select fields of physics which they will study further in details.
The goal is to have an overview of modern physics before the students study individual lectures on specific topics later.
As a common topic in various modern physics, the concept of the "symmetry" is introduced so that the students can gain in-depth understanding of the physics world.
Relativity, quantum mechanics, statistical mechanics, modern physics, solid state physics
✔ Specialist skills | ✔ Intercultural skills | Communication skills | Critical thinking skills | Practical and/or problem-solving skills |
Overview on various fields of physics is presented by two faculty members.
Course schedule | Required learning | |
---|---|---|
Class 1 | (Fujioka) Overview of the modern physics: particle-, nuclear-, and astro-physics | Learn about the challenges in modern physics, especially in particle-, nuclear-, and astro-physics. |
Class 2 | (Fujioka) How to recognize elementary particles? | Learn how elementary particles have been discovered. |
Class 3 | (Fujioka) Symmetry in particle and nuclear physics | Understand the concept of symmetry in particle and nuclear physics. |
Class 4 | (Fujioka) Symmetry breaking in particle and nuclear physics | Understand the concept of symmetry breaking in particle and nuclear physics. |
Class 5 | (Hirahara) Symmetry breaking in condensed matter physics and quantum phenomena | Understand the concept of symmetry breaking in condensed matter physics and emerging quantum phenomena. |
Class 6 | (Hirahara) Relativistic effects in condensed matter physics and quantum materials | Understand the concept of quantum materials in which relativistic effects become important in condensed matter physics. |
Class 7 | (Hirahara) Application of quantum phenomena in condensed matter physics | Understand how quantum phenomena in condensed matter physics can be used in application. |
To enhance effective learning, students are encouraged to spend approximately 100 minutes preparing for class and another 100 minutes reviewing class content afterwards (including assignments) for each class.
They should do so by referring to textbooks and other course material.
Not specified
To be introduced during the course.
Students shall submit some reports.
Not in particular.