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Related papers: Painlev\'e equations and the middle convolution

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Classical Analysis and ODEs · Mathematics 2008-02-03 Alphonse P. Magnus

The third, fifth and sixth Painlev\'e equations are studied by means of the weighted projective spaces ${\mathbb C}P^3(p,q,r,s)$ with suitable weights $(p,q,r,s)$ determined by the Newton polyhedrons of the equations. Singular normal forms…

Classical Analysis and ODEs · Mathematics 2016-02-24 Hayato Chiba

In this paper, we construct a new relation between ABS equations and Painlev\'e equations. Moreover, using this connection we construct the difference-differential Lax representations of the fourth and fifth Painlev\'e equations.

Exactly Solvable and Integrable Systems · Physics 2018-03-14 Nobutaka Nakazono

Hypergeometric solutions to seven q-Painlev\'e equations in Sakai's classification are constructed. Geometry of plane curves is used to reduce the q-Painlev\'e equations to the three-term recurrence relations for q-hypergeometric functions.

Exactly Solvable and Integrable Systems · Physics 2007-05-23 Kenji Kajiwara , Tetsu Masuda , Masatoshi Noumi , Yasuhiro Ohta , Yasuhiko Yamada

We construct 2x2-matrix linear problems with a spectral parameter for the Painleve equations I-V by means of the degeneration processes from the elliptic linear problem for the Painleve VI equation. These processes supplement the known…

Exactly Solvable and Integrable Systems · Physics 2017-01-24 G. Aminov , S. Arthamonov

The Riemann-Hilbert approach for the equations ${\rm PIII(D_6)}$ and ${\rm PIII(D_7)}$ is studied in detail, involving moduli spaces for connections and monodromy data, Okamoto-Painlev\'e varieties, the Painlev\'e property, special…

Algebraic Geometry · Mathematics 2014-04-24 Marius van der Put , Jaap Top

For each of the forty-eight exceptional algebraic solutions $u(x)$ of the sixth equation of Painlev\'e, we build the algebraic curve $P(u,x)=0$ of a degree conjectured to be minimal, then we give an optimal parametric representation of it.…

Mathematical Physics · Physics 2025-04-14 Robert Conte

We describe the use of confluent Darboux transformations for Schr\"odinger operators, and how they give rise to explicit Wronskian formulae for certain algebraic solutions of Painlev\'e equations. As a preliminary illustration, we briefly…

Classical Analysis and ODEs · Mathematics 2025-03-18 J. W. E. Harrow , A. N. W. Hone

We solve the metrisability problem for the six Painlev\'e equations, and more generally for all 2nd order ODEs with Painlev\'e property, and determine for which of these equations their integral curves are geodesics of a (pseudo) Riemannian…

Differential Geometry · Mathematics 2018-02-06 Felipe Contatto , Maciej Dunajski

We construct a family of second-order linear difference equations parametrized by the hypergeometric solution of the elliptic Painlev\'e equation (or higher-order analogues), and admitting a large family of monodromy-preserving…

Classical Analysis and ODEs · Mathematics 2011-09-12 Eric M. Rains

B\"acklund transformations are applied to study the Gross-Pitaevskii equation. Supported by previous results, a class of B\"acklund transformations admitted by this equation are constructed. Schwartzian derivative as well as its invariance…

Mathematical Physics · Physics 2019-01-04 Sandra Carillo , Federico Zullo

We extend Painlev\'e IV model by adding quadratic terms to its Hamiltonian obtaining two classes of models (coalescence and deformation) that interpolate between Painlev\'e IV and II equations for special limits of the underlying…

Exactly Solvable and Integrable Systems · Physics 2020-09-14 V. C. C. Alves , H. Aratyn , J. F. Gomes , A. H. Zimerman

We utilise a recent approach via the so-called re-scaling method to derive a unified and comprehensive theory of the solutions to Painleve's differential equations (I), (II) and (IV), with emphasis on the most elaborate equation (IV).

Complex Variables · Mathematics 2016-01-18 Norbert Steinmetz

Algebraic solutions of the sixth Painleve equation can be computed using pullback transformations of hypergeometric equations with respect to specially ramified rational coverings. In particular, as was noticed by the second author and…

Classical Analysis and ODEs · Mathematics 2008-10-15 Raimundas Vidunas , Alexander Kitaev

Orthogonal polynomials and multiple orthogonal polynomials are interesting special functions because there is a beautiful theory for them, with many examples and useful applications in mathematical physics, numerical analysis, statistics…

Classical Analysis and ODEs · Mathematics 2020-07-14 Walter Van Assche

The number of periodic solutions to Painlev\'e VI along a Pochhammer loop is counted exactly. It is shown that the number grows exponentially with period, where the growth rate is determined explicitly. Principal ingredients of the…

Algebraic Geometry · Mathematics 2007-05-23 Katsunori Iwasaki , Takato Uehara

In the work we use integral formulas for calculating the monodromy data for the Painlev\'e-2 equation. The perturbation theory for the auxiliary linear system is constructed and formulas for the variation of the monodromy data are obtained.…

Exactly Solvable and Integrable Systems · Physics 2021-04-26 O. M. Kiselev

We derive inversion formulas involving orthogonal polynomials which can be used to find coefficients of differential equations satisfied by certain generalizations of the classical orthogonal polynomials. As an example we consider special…

Classical Analysis and ODEs · Mathematics 2007-05-23 Roelof Koekoek

Using a relation due to Katz linking up additive and multiplicative convolutions, we make explicit the behaviour of some Hodge invariants by middle multiplicative convolution, following [DS13] and [Mar18a] in the additive case. Moreover,…

Algebraic Geometry · Mathematics 2021-12-30 Nicolas Martin

Folding transformation of the Painlev\'e equations is an algebraic (of degree greater than 1) transformation between solutions of different equations. In 2005 Tsuda, Okamoto and Sakai classified folding transformations of differential…

Exactly Solvable and Integrable Systems · Physics 2021-10-29 M. Bershtein , A. Shchechkin