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Related papers: Quantum Painlev\'e systems of type $A^{(1)}_l$

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Higher order Painleve equations invariant under extended affine Weyl groups $A^{(1)}_n$ are obtained through self-similarity limit of a class of pseudo-differential Lax hierarchies with symmetry inherited from the underlying generalized…

Exactly Solvable and Integrable Systems · Physics 2010-11-01 H. Aratyn , J. F. Gomes , A. H. Zimerman

In this paper, we propose a 4-parameter family of coupled Painlev\'e III systems in dimension four with affine Weyl group symmetry of type $D_4^{(1)}$. We also propose its symmetric form in which the $D_4^{(1)}$-symmetries become clearly…

Algebraic Geometry · Mathematics 2007-05-23 Yusuke Sasano

In this paper, we propose a 3-parameter family of coupled Painlev\'e III systems in dimension four with affine Weyl group symmetry of type $A_5^{(2)}$. We also propose its symmetric form in which the $A_5^{(2)}$-symmetries become clearly…

Algebraic Geometry · Mathematics 2007-05-23 Yusuke Sasano

We derive integrable equations starting from autonomous mappings with a general form inspired by the additive systems associated to the affine Weyl group E$_8^{(1)}$. By deautonomisation we obtain two hitherto unknown systems, one of which…

Exactly Solvable and Integrable Systems · Physics 2017-04-26 A. Ramani , B. Grammaticos , R. Willox

A new class of representations of affine Weyl groups on rational functions are constructed, in order to formulate discrete dynamical systems associated with affine root systems. As an application, some examples of difference and…

Quantum Algebra · Mathematics 2009-10-31 Masatoshi Noumi , Yasuhiko Yamada

We investigate the differential system with affine Weyl group symmetry of type A^{(1)}_4 and construct a space which parametrizes all meromorphic solutions of it. To demonstrate our method based on singularity analysis and affine Weyl group…

Classical Analysis and ODEs · Mathematics 2012-02-02 Nobuhiko Tahara

Three $q$-Painlev\'e type equations are derived through degenerations of the $q$-Painlev\'e equation with affine Weyl group symmetry of type $q$-$E_8^{(1)}$. The three $q$-Painlev\'e type equations are associated with different realizations…

Exactly Solvable and Integrable Systems · Physics 2023-04-19 Hidehito Nagao , Yasuhiko Yamada

We find a four-parameter family of coupled Painlev\'e VI systems in dimension four with affine Weyl group symmetry of type $E_6^{(2)}$. This is the first example which gave higher order Painlev\'e type systems of type $E_{6}^{(2)}$. We…

Algebraic Geometry · Mathematics 2009-11-07 Yusuke Sasano

In this article we formulate a group of birational transformations which is isomorphic to an extended affine Weyl group of type $(A_{2n+1}+A_1+A_1)^{(1)}$ with the aid of mutations and permutations of vertices to a mutation-periodic quiver…

Quantum Algebra · Mathematics 2020-09-25 Naoto Okubo , Takao Suzuki

We find and study four kinds of five-parameter family of six-dimensional coupled Painlev\'e III systems with affine Weyl group symmetry of types $D_5^{(1)},B_5^{(1)}$ and $D_6^{(2)}$. We show that each system is equivalent by an explicit…

Algebraic Geometry · Mathematics 2007-05-23 Yusuke Sasano

Based on the works by Kajiwara, Noumi and Yamada, we propose a canonically quantized version of the rational Weyl group representation which originally arose as "symmetries" or the B\"acklund transformations in Painlev\'{e} equations. We…

Quantum Algebra · Mathematics 2007-05-23 Koji Hasegawa

We propose an $n$-dimensional analogue of elliptic difference Painlev\'e equation. Some Weyl group acts on a family of rational varieties obtained by successive blow-ups at $m$ points in $\mpp^n(\mc)$, and in many cases they include the…

Exactly Solvable and Integrable Systems · Physics 2007-05-23 Tomoyuki Takenawa

It is known that discrete Painlev\'e equations have symmetries of the affine Weyl groups. In this paper we propose a new representation of discrete Painlev\'e equations in which the symmetries become clearly visible. We know how to obtain…

Exactly Solvable and Integrable Systems · Physics 2007-05-23 Mikio Murata

We find a two-parameter family of ordinary differential systems in dimension five with the affine Weyl group symmetry of type $D_3^{(2)}$. We show its symmetry and holomorphy conditions. This is the second example which gave higher order…

Algebraic Geometry · Mathematics 2009-11-15 Yusuke Sasano

We derive integrable equations starting from autonomous mappings with a general form inspired by the multiplicative systems associated to the affine Weyl group E$_8^{(1)}$. Five such systems are obtained, three of which turn out to be…

Mathematical Physics · Physics 2017-09-13 Basil Grammaticos , Alfred Ramani , Ralph Willox , Junkichi Satsuma

We find and study a six-parameter family of coupled Painlev\'e III systems in dimension six with affine Weyl group symmetry of type $D_6^{(1)}$. We also find and study its degenerate systems with affine Weyl group symmetry of types…

Algebraic Geometry · Mathematics 2009-11-02 Yusuke Sasano

We consider $q$-Painlev\'e equations arising from birational representations of the extended affine Weyl groups of $A_4^{(1)}$- and $(A_1+A_1)^{(1)}$-types. We study their hypergeometric solutions on the level of $\tau$ functions.

Exactly Solvable and Integrable Systems · Physics 2016-05-23 Nobutaka Nakazono

In this paper we are mainly concerned with the study of polarizations (in general of higher-order type) on a connected Lie group with a U(1)-principal bundle structure. The representation technique used here is formulated on the basis of a…

Mathematical Physics · Physics 2007-05-23 V. Aldaya , J. Guerrero , G. Marmo

We find a three-parameter family of ordinary differential systems in dimension six with affine Weyl group symmetry of type $D_4^{(2)}$. This is the second example which gave higher order Painlev\'e type systems of type $D_{4}^{(2)}$. We…

Algebraic Geometry · Mathematics 2009-11-10 Yusuke Sasano

By considering the normalizers of reflection subgroups of types $A_1^{(1)}$ and $A_3^{(1)}$ in $\widetilde{W}\left(D_5^{(1)}\right)$, two normalizers: $\widetilde{W}\left(A_3\times A_1\right)^{(1)}\ltimes {W}(A_1^{(1)})$ and…

Mathematical Physics · Physics 2019-04-11 Yang Shi