## Infinite Analysis Seminar Tokyo

Seminar information archive ～10/15｜Next seminar｜Future seminars 10/16～

Date, time & place | Saturday 13:30 - 16:00 117Room #117 (Graduate School of Math. Sci. Bldg.) |
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### 2018/09/25

16:00-17:00 Room #002 (Graduate School of Math. Sci. Bldg.)

Classification of quad-equations on a cuboctahedron (JAPANESE)

**Nobutaka Nakazono**(Aoyama Gakuin University Department of Physics and Mathematics)Classification of quad-equations on a cuboctahedron (JAPANESE)

[ Abstract ]

Adelr-Bobenko-Suris (2003, 2009) and Boll (2011) classified quad-equations on a cube using a consistency around a cube. By use of this consistency, we can define integrable two-dimensional partial difference equations called ABS equations. A major example of ABS equation is the lattice modified KdV equation, which is a discrete analogue of the modified KdV equation. It is known that Lax representations and Backlund transformations of ABS equations can be constructed by using the consistency around a cube, and ABS equations can be reduced to differential and difference Painlevé equations via periodically reductions.

In this talk, we show a classification of quad-equations on a cuboctahedron using a consistency around a cuboctahedron and the relation between a resulting partial difference equation and a discrete Painlevé equation.

This work has been done in collaboration with Prof Nalini Joshi (The University of Sydney).

Adelr-Bobenko-Suris (2003, 2009) and Boll (2011) classified quad-equations on a cube using a consistency around a cube. By use of this consistency, we can define integrable two-dimensional partial difference equations called ABS equations. A major example of ABS equation is the lattice modified KdV equation, which is a discrete analogue of the modified KdV equation. It is known that Lax representations and Backlund transformations of ABS equations can be constructed by using the consistency around a cube, and ABS equations can be reduced to differential and difference Painlevé equations via periodically reductions.

In this talk, we show a classification of quad-equations on a cuboctahedron using a consistency around a cuboctahedron and the relation between a resulting partial difference equation and a discrete Painlevé equation.

This work has been done in collaboration with Prof Nalini Joshi (The University of Sydney).