Towards Optimal Gradient Bounds for the Torsion Function in the Plane

Abstract

Let ⊂ R2 be a bounded, convex domain and let u be the solution of - u = 1 vanishing on the boundary ∂ . The estimate \| ∇ u\|L∞() ≤ c ||1/2 is classical. We use the P-functional, the stability theory of the torsion function and Brownian motion to establish the estimate for a universal c < (2π)-1/2. We also give a numerical construction showing that the optimal constant satisfies c ≥ 0.358. The problem is important in different settings: (1) as the maximum shear stress in Saint Venant Elasticity Theory, (2) as an optimal control problem for the constrained maximization of the lifetime of Brownian motion started close to the boundary and (3) and optimal Hermite-Hadamard inequalities for subharmonic functions on convex domains.