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Abstract
AbstractThe energy‐loss function Im (−ε−1) of a thin polycrystalline vanadyl phthalocyanine film is determined in the range from 1 to 37 eV from energy‐loss experiments with 50 keV electrons. The electronic structure of the film investigated is analyzed by computing the complex dielectric function ε(E), optical constants (n(E) + ik(E), R(E), α(E)), and neff(E) using the Kramers‐Kronig analysis of the energy‐loss function. The spectrum of valence electron excitations is primarily interpreted in terms of π−π* and σ−σ* transitions of individual molecules and in terms of the collective excitation of the valence electron ensembles (σ + π plasmon).
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