Seminar talk, 4 March 2020: Difference between revisions
Jump to navigation
Jump to search
Created page with "{{Talk | speaker = Ian Marshall | title = Action-Angle Duality for a Poisson-Lie Deformation of the Trigonometric <math>BC_n</math> Sutherland System | abstract = The property..." |
No edit summary |
||
| Line 1: | Line 1: | ||
{{Talk | {{Talk | ||
| speaker = Ian Marshall | | speaker = Ian Marshall | ||
| title = Action-Angle Duality for a Poisson-Lie Deformation of the Trigonometric <math> | | title = Action-Angle Duality for a Poisson-Lie Deformation of the Trigonometric <math>\mathrm{BC}_n</math> Sutherland System | ||
| abstract = The property of action-angle duality was first brought to light in a systematic way by Ruijsenaars. The method of Hamiltonian reduction reveals a natural mechanism for how such a phenomenon can arise. I will give a general overview of this and present as a special case the new result, obtained together with Laszlo Feher, referred to in the title. | | abstract = The property of action-angle duality was first brought to light in a systematic way by Ruijsenaars. The method of Hamiltonian reduction reveals a natural mechanism for how such a phenomenon can arise. I will give a general overview of this and present as a special case the new result, obtained together with Laszlo Feher, referred to in the title. | ||
| video = | | video = | ||
Revision as of 09:51, 25 February 2020
Speaker: Ian Marshall
Title: Action-Angle Duality for a Poisson-Lie Deformation of the Trigonometric Sutherland System
Abstract:
The property of action-angle duality was first brought to light in a systematic way by Ruijsenaars. The method of Hamiltonian reduction reveals a natural mechanism for how such a phenomenon can arise. I will give a general overview of this and present as a special case the new result, obtained together with Laszlo Feher, referred to in the title.
References:
https://doi.org/10.1007/s00023-019-00782-7
