Elementary symmetric polynomials and martingales for Heckman-Opdam processes (2108.03228v2)

Abstract: We consider the generators $L_k$ of Heckman-Opdam diffusion processes in the compact and non-compact case in $N$ dimensions for root systems of type $A$ and $B$, with a multiplicity function of the form $k=\kappa k_0$ with some fixed value $k_0$ and a varying constant $\kappa\in\,[0,\infty[$. Using elementary symmetric functions, we present polynomials which are simultaneous eigenfunctions of the $L_k$ for all $\kappa\in\,]0,\infty[$. This leads to martingales associated with the Heckman-Opdam diffusions $ (X_{t,1},\ldots,X_{t,N}){t\ge0}$. As our results extend to the freezing case $\kappa=\infty$ with a deterministic limit after some renormalization, we find formulas for the expectations $\mathbb E(\prod{j=1}^N(y-X_{t,j})),$ $y\in\mathbb C$.