Functions positively associated with integral transforms

Let $G\subset R^n$ be a compact origin-symmetric set, and let $T:C_{e}(G)\to C_{e}(G)$ be a linear operator on the space of real valued even continuous functions on $G$. Suppose that $f,g\in C_e(G)$ are positive functions, and $Tf(x)\le Tg(x)$ for every $x\in G.$ Does this condition alone allow to compare the $L_p$-norms of the functions $f$ and $g$ for a given $p>1$? We introduce a class of functions ${\rm Pos}(T)$ that controls this problem in the sense that if $f^{p-1}\in {\rm Pos}(T)$, then $\|f\|_{L_p(G)}\le \|g\|_{L_p(G)}$ provided that $Tf\le Tg$ pointwise. On the other hand, if $g^{p-1} \notin {\rm Pos}(T)$, then one can construct a function $f$ giving together with $g$ a counterexample. We provide analytic characterizations of ${\rm Pos}(T)$ in the cases where $T$ is the spherical Radon transform or the cosine transform. These characterizations represent analytic versions of the functional analytic characterizations of intersection and projection bodies established by Goodey, Lutwak and Weil.