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Extra Form
Lecturer Otto van Koert
Dept. 서울대학교
date Apr 15, 2021

 

We describe some of the history of the three-body problem and how it lead to symplectic geometry. We start by sketching Poincare’s prize-winning work, and discuss how it lead to the birth of the fields of dynamical systems and symplectic geometry. To make the talk accessible we begin with the basics and give an illustrated guide of some of the developments.

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  1. Symplectic topology and mirror symmetry of partial flag manifolds

  2. 돈은 어떻게 우리 삶에 돈며들었는가? (불확실성 시대에 부는 선형적으로 증가하는가?)

  3. <학부생을 위한 ɛ 강연> Mathematics and music: Pythagoras, Bach, Fibonacci and AI

  4. Topological surgery through singularity in mean curvature flow

  5. Heavy-tailed large deviations and deep learning's generalization mystery

  6. Diophantine equations and moduli spaces with nonlinear symmetry

  7. <정년퇴임 기념강연> Hardy, Beurling, and invariant subspaces

  8. <정년퇴임 기념강연> The Elements of Euclid

  9. On circle diffeomorphism groups

  10. 17Oct
    by 김수현
    in Math Colloquia

    <학부생을 위한 ɛ 강연> Symplectic geometry and the three-body problem

  11. WGAN with an Infinitely wide generator has no spurious stationary points

  12. Free boundary problems arising from mathematical finance

  13. One and Two dimensional Coulomb Systems

  14. Ill-posedness for incompressible Euler equations at critical regularit

  15. <정년퇴임 기념강연> 수학의 시대정신(?)

  16. <학부생을 위한 ɛ 강연> Mathematical Aspects of Machine Learning and Deep Learning AI

  17. Lie group actions on symplectic manifolds

  18. Mathematics, Biology and Mathematical Biology

  19. Quantitative residual non-vanishing of special values of various L-functions

  20. Quantum Dynamics in the Mean-Field and Semiclassical Regime

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