Integrable Systems and Geometry of Riemann Surfaces

Abstract: We give a self-contained introduction to the relations between Integrable Systems and the Geometry of Riemann Surfaces. We start from a historical introduction to the topic of integrable systems. Afterwards, we study the polynomial solutions to the stationary KdV equation, giving concrete examples of the computations of the solutions on small degree ($N=0$, $1$, $2$.) We discused the geometry of the so called "square eigen-functions" for those cases. Later, we present the solutions in the general case, presenting a formula for the hyper-elliptic curve of genus $N$ that parametrizes the solutions, the $N$-solitons. We relate also our equations to the Lax hierarchy, and analyze the time evolution for the KdV. Using the scalar operator for the NLS equation, computed by Kamchatnov, Krankel and Umarov, we analyse such an equation, following a similar approach as the one we used for the KdV equation. We present some original results obtained in that case.