The p-th dual Minkowski problem for the k-torsional rigidity corresponding to a k-Hessian equation

Abstract

The study of the dual curvature measures [Y. Huang, E. Lutwak, D. Yang \& G. Y. Zhang, Acta. Math. 216 (2016): 325-388], which connects the cone-volume measure and Aleksandrov's integral curvature, and has created a precedent for the theoretical research of the dual Brunn-Minkowski theory. Motivated by the foregoing groundbreaking works, the present paper introduces the p-th dual k-torsional rigidity associated with a k-Hessian equation and establishes its Hadamard variational formula with 1≤ k≤ n-1, which induces the p-th dual k-torsional measure. Further, based on the p-th dual k-torsional measure, this article, for the first time, proposes the p-th dual Minkowski problem of the k-torsional rigidity which can be equivalently converted to a nonlinear partial differential equation in smooth case: aligneq01 f(x)=τ(|∇ h|2+h2)p-n2h(x)|Du(-1(x))|k+1σn-k(hij(x)+h(x)δij), align where τ>0 is a constant, f is a positive smooth function defined on Sn-1 and σn-k is the (n-k)-th elementary symmetric function of the principal curvature radii. We confirm the existence of smooth non-even solution to the p-th dual Minkowski problem of the k-torsional rigidity for p<n-2 by the method of a curvature flow which converges smoothly to the solution of equation (eq01). Specially, a novel approach for the uniform lower bound estimation in the C0 estimation for the solution to the curvature flow is presented with the help of invariant functional (t).

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