Litcius/Paper detail

A fully-nonlinear flow and quermassintegral inequalities in the sphere

Chuanqiang Chen, Pengfei Guan, Junfang Li, Julian Scheuer

2022Pure and Applied Mathematics Quarterly30 citationsDOIOpen Access PDF

Abstract

This expository paper presents the current knowledge of particular fully nonlinear curvature flows with local forcing term, so-called locally constrained curvature flows. We focus on the spherical ambient space. The flows are designed to preserve a quermassintegral and to de-/increase the other quermassintegrals. The convergence of this flow to a round sphere would settle the full set of quermassintegral inequalities for convex domains of the sphere, but a full proof is still missing. Here we collect what is known and hope to attract wide attention to this interesting problem.

Topics & Concepts

CurvatureRegular polygonFlow (mathematics)MathematicsNonlinear systemFocus (optics)Convergence (economics)Forcing (mathematics)Space (punctuation)Set (abstract data type)Current (fluid)Term (time)Mean curvature flowInequalityMathematical analysisApplied mathematicsMathematical optimizationComputer scienceGeometryPhysicsMean curvatureOpticsEconomicsThermodynamicsQuantum mechanicsOperating systemProgramming languageEconomic growthGeometric Analysis and Curvature FlowsGeometry and complex manifoldsPoint processes and geometric inequalities