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Elliptic Integrable Systems and Hypergeometric Functions

Description
and Aim The
theory of elliptic functions was developed and laid down in various monographs in the 19th century. Although this extensive body of knowledge found applications in some areas of physics and mathematics, it was not widely known for a large part of the 20th century.
Likewise, the field of integrable systems was dormant until the 1970s. This state of affairs took a sharp turn with the discovery of soliton solutions
to various previously known evolution equations, which led to the reinterpretation of these equations as infinitedimensional integrable systems. Triggered by the resulting revival of integrable system theory, elliptic functions
came back in focus as well, with a vengeance. Indeed, they turn out to be a key ingredient for the area, since integrable systems typically have versions involving rational, trigonometric/hyperbolic, and elliptic functions. The workshop focusses on the most general elliptic incarnations of various integrable systems that have been discovered
in recent years. The elliptic versions are the least accessible and most challenging ones, and to increase our understanding of them is of great importance for the whole area and for its manifold applications to related subfields. The
elliptic perspective has also led to breakthroughs in the theory of hypergeometric functions.
For instance,
the classes of univariate and multivariate (q)hypergeometric functions have been extended with elliptic hypergeometric functions,
and longknown identities such as the beta integral and Selberg integral, fundamental
in diverse areas such as representation theory, quantum field theory and random matrix theory, have been vastly generalized. Important examples of recent applications of elliptic hypergeometric functions
are the construction of special solutions to Sakai's elliptic Painlev\'e equation involving elliptic hypergeometric series and the interpretation of novel elliptic hypergeometric integral identities
as dual versions of superconformal indices in fourdimensional supersymmetric YangMills theory. At
the same time, the research area representation theory is witnessing groundbreaking developments. In many of these advances,
the
new source of inspiration came from integrable models and their associated mathematical structures. For instance, the already known relations between integrable systems and simple Lie algebras were extended
first to affine Lie algebras and subsequently to quantum groups, quantum affine algebras and (double) affine Hecke algebras. In turn, the representation theory of the elliptic versions of quantum groups and algebras (such as the Sklyanin algebra) and the representation theory of the double affine Hecke algebra turn out to be intimately
connected to elliptic hypergeometric functions
and identities. As
a result of these disparate
developments, the importance of the elliptic regime is now widely acknowledged in the communities working on the above topics.
The
field has been in a state of rapid expansion,
yielding a great many new and unexpected
results. This renders the subject highly topical.
The
workshop aims to capitalize on the unifying trends, by enabling researchers from the various pertinent areas to meet, learn about ongoing projects, discuss open problems and novel directions, and begin new collaborations from different
complementary and mutually beneficial perspectives. [Back] 