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  1. ; ; (, Inventiones mathematicae)
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  2. ; ; (, Proceedings of the American Mathematical Society, Series B)
    We show a new, elementary and geometric proof of the classical Alexandrov theorem about the second order differentiability of convex functions. We also show new proofs of recent results about Lusin approximation of convex functions and convex bodies by C 1 , 1 C^{1,1} convex functions and convex bodies. 
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  3. ; (, Calculus of Variations and Partial Differential Equations)
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  4. ; ; (, Annales Fennici Mathematici)
    We present an elementary proof of a well-known theorem of Cheeger which states that if a metric-measure space \(X\) supports a \(p\)-Poincaré inequality, then the \(N^{1,p}(X)\) Sobolev space is reflexive and separable whenever \(p\in (1,\infty)\). We also prove separability of the space when \(p=1\). Our proof is based on a straightforward construction of an equivalent norm on \(N^{1,p}(X)\), \(p\in [1,\infty)\), that is uniformly convex when \(p\in (1,\infty)\). Finally, we explicitly construct a functional that is pointwise comparable to the minimal \(p\)-weak upper gradient, when \(p\in (1,\infty)\). 
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  5. ; (, Journal of the London Mathematical Society)
  6. (, Colloquium Mathematicum)
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