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402-0469-67L 6 Credits MSC D-ITET , D-PHYS

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Classical and Quantum Parametric Phenomena

Lecturers & Examiners: PD Dr. Alexander Eichler, Dr. Alexander Grimm

VVZ CR n/a

Last Updated: 2026-02-05 16:29:44

Abstract

There are numerous physical phenomena that rely on time-dependent Hamiltonians (or parametric driving) to amplify, cool, squeeze or couple resonating systems. In this course, we will introduce parametric phenomena in different fields of physics, ranging from classical engineering ideas to devices proposed for quantum computing.

Objective

This course is intended for - Experimentalists who desire to gain a solid theoretical understanding of nonlinear driven-dissipative systems, - Theorists looking to enter a topical new field, - Any scientist interested to learn what lies beyond the harmonic resonator. In the course, the students will grasp the ubiquitous nature of parametric phenomena and apply it to both classical and quantum systems. The students will understand both the theoretical foundations leading to the parametric drive as well as the experimental aspect related to the realizations of the effect. Each student will analyze an independent system using the tools acquired in the course and will present his/her insights to the class.

Content

This course will provide a general framework for understanding and linking various phenomena, ranging from the child-on-a-swing problem to quantum-limited amplifiers, to optical frequency combs, and to optomechanical sensors used in the LIGO experiment. The course will combine theoretical lectures and the study of important experiments through literature. The students will receive an extended lecture summary as well as numerous Python scripts, including some that are base on the QuTiP library. These tools will enable them to apply analytical and numerical methods to a wide range of systems beyond the duration of the course.

Resources

Lecture Notes

A full script will be available in the form of chapters from a dedicated book ("Classical and Quantum Parametric Phenomena").

Learning Materials (Links)

Moodle course
Moodle-Kurs / Moodle course

General Information

Language: English
Levels: MSC
Frequency: Every two years

Examination

Type: graded semester performance

Students will be assessed on the basis of an independent project that will be presented at the end of the semester.

Course Components

Type	Title	Time & Place	Hours
lecture with exercise	Classical and Quantum Parametric Phenomena	Tue 13:45-16:30 (HIL B 21)	3 h weekly

Offered In

Physics Master
- Electives
  - Electives: Physics and Mathematics
    - Selection: Solid State Physics
Quantum Engineering Master
- Electives (This is a selection of courses particularly suitable for the MSc QE. In agreement with the tutor, students may choose other courses from the ETH course catalogue.)