"Conformal Maps and Orthogonal Polynomials for Planar Regions with Anal" by Erwin Miña-Díaz
 

Document Type

Lecture

Publication Date

9-24-2008

Abstract

For an arbitrary analytic Jordan curve �� in the complex plane, whose interior domain is denoted by ��, we shall look at the sequence of polynomials ��ₙ(��), �� = 0,1,2,... (��ₙ of exact degree ��) that are orthonormal over �� with respect to area measure, that is, ∫₉ ��ₙ(��)��ₘ(��) d��(��) = 0 if �� ≠ �� and 1 if �� = ��, where d�� is the two-dimensional Lebesgue (area) measure. Specifically, we want to understand how these polynomials and their zeros behave as �� → ∞. We shall give a quite complete and satisfactory answer to this question, which required us to gain a good understanding of the meromorphic continuation properties of the interior and exterior canonical conformal maps associated with the analytic curve ��. The results will be illustrated with some concrete (far from trivial) examples and numerical computations. This is joint work with Dr. P. Dragnev of Indiana-Purdue University Fort Wayne.

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