| Call Number | 13058 |
|---|---|
| Day & Time Location |
MW 2:40pm-3:55pm To be announced |
| Points | 3 |
| Grading Mode | Standard |
| Approvals Required | None |
| Instructor | Sebastian Will |
| Type | LECTURE |
| Method of Instruction | In-Person |
| Course Description | Prerequisites: (PHYS GU4021 and PHYS GU4022) In this course, we will learn how the concepts of quantum mechanics are applied to real physical systems, and how they enable novel applications in quantum optics and quantum information. We will start with microscopic, elementary quantum systems – electrons, atoms, and ions - and understand how light interacts with atoms. Equipped with these foundations, we will discuss fundamental quantum applications, such as atomic clocks, laser cooling and ultracold quantum gases - a synthetic form of matter, cooled down to just a sliver above absolute zero temperature. This leads us to manybody quantum systems. We will introduce the quantum physics of insulating and metallic behavior, superfluidity and quantum magnetism – and demonstrate how the corresponding concepts apply both to real condensed matter systems and ultracold quantum gases. The course will conclude with a discussion of the basics of quantum information science - bringing us to the forefront of today’s quantum applications. |
| Web Site | Vergil |
| Department | Physics |
| Enrollment | 9 students (40 max) as of 2:06PM Tuesday, April 22, 2025 |
| Subject | Physics |
| Number | GU4024 |
| Section | 001 |
| Division | Interfaculty |
| Section key | 20253PHYS4024W001 |