Shi-Zhong Du
Published 2021-03-16Version 1
Bernstein problem for affine maximal type equation has been a core problem in affine geometry. A conjecture proposed firstly by Chern for entire graph and then extended by Trudinger-Wang to its fully generality asserts that any Euclidean complete, affine maximal type, locally uniofrmly convex C^4-hypersurface in R^{N+1} must be an elliptic paraboloid. At the same time, this conjecture was solved completely by Trudinger-Wang for dimension N=2 and \theta=3/4, and later extended by Jia-Li to N=2, \theta\in(3/4,1] (see also [Zhou]). On the past twenty years, much efforts were done toward higher dimensional issues but not really successful yet, even for the case of dimension N=3. In this paper, we will construct non-quadratic affine maximal type hypersurfaces which are Euclidean complete for N>=3, \theta\in(1/2,(N-1)/N).
Comments: Corrigendum to "Bernstein problem of affine maximal type hypersurfaces on dimension N>= 3", which has been published in Journal of Differential Equations 269 (2020), no. 9, 7429-7469
Journal: Journal of Differential Equations 269 (2020) 7429-7469
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