Orthogonally additive, orthogonality preserving, holomorphic mappings between C*-algebras
Abstract: We study holomorphic maps between C$*$-algebras $A$ and $B$. When $f:B_A (0,\varrho) \longrightarrow B$ is a holomorphic mapping whose Taylor series at zero is uniformly converging in some open unit ball $U=B_{A}(0,\delta)$ and we assume that $f$ is orthogonality preserving on $A_{sa}\cap U$, orthogonally additive on $U$ and $f(U)$ contains an invertible element in $B$, then there exist a sequence $(h_n)$ in $B{**}$ and Jordan $*$-homomorphisms $\Theta, \widetilde{\Theta} : M(A) \to B{**}$ such that $$ f(x) = \sum_{n=1}\infty h_n \widetilde{\Theta} (an)= \sum_{n=1}\infty {\Theta} (an) h_n,$$ uniformly in $a\in U$. When $B$ is abelian the hypothesis of $B$ being unital and $f(U)\cap \hbox{inv} (B) \neq \emptyset$ can be relaxed to get the same statement.
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