On Axial Symmetry in Convex Bodies

Abstract

For a two-dimensional convex body, the Kovner-Besicovitch measure of symmetry is defined as the volume ratio of the largest centrally symmetric body contained inside the body to the original body. A classical result states that the Kovner-Besicovitch measure is at least 2/3 for every convex body and equals 2/3 for triangles. Lassak showed that an alternative measure of symmetry, i.e., symmetry about a line (axiality) has a value of at least 2/3 for every convex body. However, the smallest known value of the axiality of a convex body is around 0.81584, achieved by a convex quadrilateral. We show that every plane convex body has axiality at least 241(10 + 3 2) ≈ 0.69476, thereby establishing a separation with the central symmetry measure. Moreover, we find a family of convex quadrilaterals with axiality approaching 13(2+1) ≈ 0.80474. We also establish improved bounds for a ``folding" measure of axial symmetry for plane convex bodies. Finally, we establish improved bounds for a generalization of axiality to high-dimensional convex bodies.