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2024 Faculty Courses School of Science Undergraduate major in Physics

Frontiers of Physics

Academic unit or major
Undergraduate major in Physics
Instructor(s)
Tomohiro Sasamoto / Kazuyuki Sekizawa / Takashi Nakamura / Yoichi Yatsu / Akihisa Koga / Yusuke Nishida / Toshimasa Fujisawa / Masaya Notomi / Mikio Kozuma / Michio Matsushita / Takashi Mukaiyama / Jiang Pu / Sadashige Matsuo / Masayuki Ohzeki
Class Format
Lecture (Face-to-face)
Media-enhanced courses
-
Day of week/Period
(Classrooms)
3-4 Tue / 3-4 Fri
Class
-
Course Code
PHY.G332
Number of credits
200
Course offered
2024
Offered quarter
2Q
Syllabus updated
Mar 14, 2025
Language
Japanese

Syllabus

Course overview and goals

In the course, recent developments of modern physics such as solid physics, condensed matter physics, nuclear physics, particle physics, and astrophysics will be given. The aim of the course is to familiarize students with the frontiers of physics.

Course description and aims

At the end of this course, students will be familiar with the frontiers of physics.

Keywords

Frontiers of physics

Competencies

  • Specialist skills
  • Intercultural skills
  • Communication skills
  • Critical thinking skills
  • Practical and/or problem-solving skills

Class flow

Each lecturer will introduce his/her expertise to students comprehensively. The theme ranges from solid physics and condensed matter physics to nuclear physics, particle physics, and astrophysics.

Course schedule/Objectives

Course schedule Objectives
Class 1

Frontiers in condensed matter physics: Experiment (low-dimensional electronic systems) Toshimasa Fujisawa

It will be given in the lecture.
Class 2

Frontiers in condensed matter physics: Theory (quantum fluids, field theories) Yusuke Nishida

It will be given in the lecture.
Class 3

Frontiers in nuclear physics: Theory (many-nucleon systems, neutron stars) Kazuyuki Sekizawa

It will be given in the lecture.
Class 4

Frontiers in condensed matter physics: Experiment (Physics of quantum degeneracy, quantum technologies) Takashi Mukaiyama

It will be given in the lecture.
Class 5

Frontiers in condensed matter physics: Experiment (chemical physics and biophysics) Michio Matsushita

It will be given in the lecture.
Class 6

Frontiers in condensed matter physics: Theory (Strongly correlated electron systems) Akihisa Koga

It will be given in the lecture.
Class 7

Frontiers in nuclear physics: Theory (Quantum annealing)
Masayuki Ohzeki

It will be given in the lecture.
Class 8

Frontiers in condensed matter physics: Experiment (Atomically thin materials) Kou Ho (Jiang Pu)

It will be given in the lecture.
Class 9

Frontiers in condensed matter physics: Experiment (Laser cooling) Mikio Kozuma

It will be given in the lecture.
Class 10

Frontiers in nuclear physics: Experiment (Exotic nuclei, Nuclear astrophysics ) Takashi Nakamura

It will be given in the lecture.
Class 11

Frontiers in condensed matter physics: Experiment (Nano-device quantum physics) Sadashige Matsuo

It will be given in the lecture.
Class 12

Frontiers in fundamental physics: Theory (non-equilibrium statistical mechanics) Tomohiro Sasamoto

It will be given in the lecture.
Class 13

Frontiers in Astrophysics: Experiment (Astrophysics and Aerospace engineering) Yoichi Yatsu

It will be given in the lecture.
Class 14

Frontiers in condensed matter physics: Experiment (Nanophotonics) Masaya Notomi

It will be given in the lecture.

Study advice (preparation and review)

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.

Textbook(s)

Not specified

Reference books, course materials, etc.

Not specified

Evaluation methods and criteria

Based on a term paper

Related courses

  • ZUB.Z389 : Graduation Thesis
  • ZUB.Z388 : Graduation Thesis

Prerequisites

Not specified