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Abstract

We present a framework for reconstructing any simply connected bounded or unbounded, quadrature domain $\Omega$ from its quadrature function $h$. Using the Faber transform, we derive formulae directly relating $h$ to the Riemann map for $\Omega$. Through this approach, we obtain a complete classification of one point quadrature domains with complex charge. We proceed to develop a theory of weighted quadrature domains with respect to weights of the form $\rho_a(w)=|w|^{2(a-1)}$ when $a > 0$ ("power-weighted" quadrature domains) and the limiting case of $a=0$ ("log-weighted" quadrature domains). We obtain Faber transform formulae for reconstructing these from their respective quadrature functions as well. Several examples are presented throughout to illustrate this approach both in the simply connected setting and in the presence of rotational symmetry.