Abstract
Given linearly independent holomorphic functions f0,…,fn on a planar domain Ω, let E be the set of those points z∈Ω where a nontrivial linear combination ∑j=0nλjfj may have a zero of multiplicity greater than n, once the coefficients λj=λj(z) are chosen appropriately. An elementary argument involving the Wronskian W of the fjʼs shows that E is a discrete subset of Ω (and is actually the zero set of W); thus “deep” zeros are rare. We elaborate on this by studying similar phenomena in various function spaces on the unit disk, with more sophisticated boundary smallness conditions playing the role of deep zeros.
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