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Integrable Systems and Symplectic Geometry
Last Updated: 2026-06-03 00:14:18
Abstract
Completely integrable systems have played a central role in physics and mathematics over the last few centuries. In this course, we will have an in-depth look at them from the point of view of symplectic geometry.
Content
Completely integrable systems have played a central role in physics and mathematics over the last few centuries. In this course, we will have an in-depth look at them from the point of view of symplectic geometry. Topics we discuss include the Arnold--Liouville theorem, obstructions to the existence of global action-angle, singularities of integrable systems and many examples. In the end, we will give an overview of almost toric fibrations (a special type of completely integrable systems) and their applications to modern symplectic topology.
General Information
- Language
- English
- Levels
- DR , MSC
Examination
- Type
- session examination
- Mode
- oral 20 minutes
Course Components
| Type | Title | Time & Place | Hours |
|---|---|---|---|
| lecture with exercise |
Integrable Systems and Symplectic Geometry
Mon 12-14 (2-weekly) lecture or exercises
Tue 13-15 lecture in HG D 7.1
|
|
3 h weekly |
Offered In
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Electives (For the Master's degree in Applied Mathematics the following additional condition (not manifest in myStudies) must be obeyed: At least 14 of the required 26 credits from core courses and electives must be acquired in areas of applied mathematics and further application-oriented fields.)
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Doctorate Mathematics (More Information at: )
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Subject Specialisation (The list of courses (together with the allocated credit points) eligible for doctoral students is published each semester in the newsletter of the ZGSM.)
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Graduate School (Official website of the Zurich Graduate School in Mathematics: )
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