2023 Faculty Courses School of Science Department of Physics Graduate major in Physics
Advanced Special Lectures in Physics L
- Academic unit or major
- Graduate major in Physics
- Instructor(s)
- Shiro Saito
- Class Format
- Lecture (Face-to-face)
- Media-enhanced courses
- -
- Day of week/Period
(Classrooms) - Intensive
- Class
- -
- Course Code
- PHY.P691
- Number of credits
- 100
- Course offered
- 2023
- Offered quarter
- 3-4Q
- Syllabus updated
- Jul 8, 2025
- Language
- Japanese
Syllabus
Course overview and goals
In "Quantum Information Technology Using Superconducting Circuits," students will learn a wide range of topics from basic research to applications using superconducting quantum circuits. First, I explain the formulation of superconducting quantum circuits and introduce research related to fundamental physics. Next, I will explain the research leading to quantum sensing and the development of quantum computers.
The aim of this lecture is to understand the controllability and scalability of superconducting quantum circuits and to learn how they are adapted to a wide range of fields, from basic research to applications.
Course description and aims
By attending this lecture, your goal is to gain an understanding of:
(1)How do we build qubits using superconducting circuits?
(2)What fundamental physics problems can superconducting quantum circuits challenge?
(3)Applications to quantum sensing and development of quantum computers
Keywords
Superconducting quantum circuits, quantum sensing, quantum computers
Competencies
- Specialist skills
- Intercultural skills
- Communication skills
- Critical thinking skills
- Practical and/or problem-solving skills
Class flow
Conduct lectures using slides
Course schedule/Objectives
| Course schedule | Objectives | |
|---|---|---|
| Class 1 | Overview of quantum information technology using superconducting circuits | Overview of quantum information technology using superconducting circuits |
| Class 2 | Superconducting quantum circuits | Superconducting quantum circuits |
| Class 3 | Verification of macroscopic realism and exploration of quantum electrodynamics | Verification of macroscopic realism and exploration of quantum electrodynamics |
| Class 4 | Applications to quantum sensing | Applications to quantum sensing |
| Class 5 | Superconducting quantum computers | Superconducting quantum computers |
| Class 6 | Quantum error corrections | Quantum error corrections |
| Class 7 | Superconducting bosonic qubits | Superconducting bosonic qubits |
Study advice (preparation and review)
Textbook(s)
Not specified
Reference books, course materials, etc.
Provide lecture materials
Evaluation methods and criteria
Evaluate submitted reports
Related courses
- Not specified
Prerequisites
Not specified