The growth theorem and Schwarz lemma on infinite dimensional domains (Q2785231)

Let \(E\) be a sequentially complete locally convex space over \(\mathbb C\), \(\alpha\) be a semi-norm on \(E\), and \(B_\alpha = \{z\in E\); \(\alpha(z) < 1\}\). Let \(f : B_\alpha\to E\) be a biholomorphic convex mapping such that \(f(0) = 0\) and \(df(0)\) is the identity. NEWLINENEWLINENEWLINEThe author gives the upper bound of the growth of \(f\): \(\alpha\circ f(z)\leq\alpha(z)/(1-\alpha(z))\) for all \(z\in B_\alpha\). Schwarz's lemma on a pseudoconvex domain is considered. Let \(D_1\), \(D_2\) be bounded balanced pseudoconvex domains in complex normed spaces \(E_1\), \(E_2\), respectively. When \(f:D_1\to D_2\) is a holomorphic mapping, a condition whereby \(f\) is linear or injective is discussed.