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October 20, 2025Open Access

Shi-type and Hamilton-type gradient estimates for a general parabolic equation under compact Finsler CD (-K, N) geometric flows

Key Points

Shi-type and Hamilton-type gradient estimates were derived under compact Finsler CD(-K,N) geometric flows.
The curvature conditions pose stricter derivative bounds compared to the Riemannian case, impacting the analysis.
These findings imply potential for broadening applications in geometric flow analysis.
The estimates demonstrate the feasibility of relaxing curvature conditions without losing essential properties.

Abstract

Recently, the Li-Yau-type gradient estimates for positive solutions to parabolic equations equation ₜ u=Δu+R₁u+R₂u^α+R₃u (u) ^β, equation under the general compact Finsler CD (-K, N) geometric flow are studied. Here R₁, R₂, R₃ C^1 (M, 0, T), α and β are both positive constants, T is the maximal existence time for the flow. However, compared with the Riemannian case, the curvature conditions impose stricter derivative bounds on the development term in the geometric flow, as well as on the derivative bounds of the distortion of the manifold. In this manuscript, we present Shi-type and Hamilton-type gradient estimates to demonstrate the possibility of removing such conditions.

Shi-type and Hamilton-type gradient estimates for a general parabolic equation under compact Finsler CD (-K, N) geometric flows

Key Points

Abstract

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