A Structure Theory for Stable Codimension 1 Integral Varifolds with Applications to Area Minimising Hypersurfaces mod p

Abstract

For any Q∈\32,2,52,3,…c\, we establish a structure theory for the class SQ of stable codimension 1 stationary integral varifolds admitting no classical singularities of density <Q. This theory comprises three main theorems which describe the nature of a varifold V∈ SQ when: (i) V is close to a flat disk of multiplicity Q (for integer Q); (ii) V is close to a flat disk of integer multiplicity <Q; and (iii) V is close to a stationary cone with vertex density Q and support the union of 3 or more half-hyperplanes meeting along a common axis. The main new result concerns (i) and gives in particular a description of V∈ SQ near branch points of density Q. Results concerning (ii) and (iii) directly follow from parts of the work [Wic14] (and are reproduced in Part 2). These three theorems, taken with Q=p/2, are readily applicable to codimension 1 rectifiable area minimising currents mod p for any integer p≥ 2, establishing local structure properties of such a current T as consequences of little, readily checked, information. Specifically, applying case (i) it follows that, for even p, if T has one tangent cone at an interior point y equal to an (oriented) hyperplane P of multiplicity p/2, then P is the unique tangent cone at y, and T near y is given by the graph of a p2-valued function with C1,α regularity in a certain generalised sense. This settles a basic remaining open question in the study of the local structure of such currents near points with planar tangent cones, extending the cases p=2 and p=4 of the result which have been known since the 1970's from the De Giorgi--Allard regularity theory ([All72]) and the structure theory of White ([Whi79]) respectively.