Geometry of tangent bundles of statistical manifolds equiped with Cheeger-Gromoll type metrics

Abstract

In this paper, we investigate the geometry of the tangent bundle TM of a statistical manifold (M,g,∇) endowed with a two-parameter family of generalized Cheeger--Gromoll metrics gp,q. We compute the associated the Levi--Civita connection ∇p,q and express its curvature in terms of the Riemannian curvature and the skewness tensor K of the base statistical manifold. We further analyze the behavior of geodesics, identify conditions under which the fibers of TM are totally geodesic, and determine when the geodesic flow associated with gp,q is incompressible. Moreover, we establish necessary and sufficient conditions for the tangent bundle to admit constant sectional curvature. Several examples are provided to illustrate the theory, including statistically deformed Euclidean spaces and information geometric models such as the manifold of normal distributions. The sectional curvature of (TM, gp,q) is computed for horizontal, vertical, and mixed directions, leading to a concise expression for the corresponding scalar curvature.