zbMATH — the first resource for mathematics

Lectures on geometric measure theory. (English) Zbl 0546.49019
Proceedings of the Centre for Mathematical Analysis, Australian National University, Vol. 3. Canberra: Centre for Mathematical Analysis, Australian National University. vii, 272 p. (loose errata) (1983).
For many years now, the standard reference in geometric measure theory has been H. Federer’s treatise, ”Geometric measure theory” [Berlin etc.: Springer-Verlag (1969; Zbl 0176.00801)]. Federer’s book is so self-contained and complete that it has been difficult reading for newcomers to the field. They should welcome the author’s book. This is not to say that readers will find the author’s book easy going, either for geometric measure theory, and especially the regularity theory, is a very technical field relying on many delicate estimates. However, the author’s treatment will bring the reader more quickly to the heart of the matter. Very much missed will be the index and glossary of notation which was so helpful in Federer’s book.
Topics covered include the monotonicity formula, Allard’s regularity theorem, the theory of currents, regularity theory for codimension one area minimizing currents, and the theory of general varifolds. Appendices cover Federer’s dimension reducing argument for regularity theorems and the non-existence of stable minimizing cones of dimension \(n\), \(n\le 6\).

49Q15 Geometric measure and integration theory, integral and normal currents in optimization
49-01 Introductory exposition (textbooks, tutorial papers, etc.) pertaining to calculus of variations and optimal control
28-01 Introductory exposition (textbooks, tutorial papers, etc.) pertaining to measure and integration
28A75 Length, area, volume, other geometric measure theory
58A25 Currents in global analysis