Abstract
We performed electron energy-loss spectroscopy studies to get a deeper insight into the electronic properties of potassium intercalated picene, a recently discovered superconductor. A comparison of the loss function of the undoped and doped compound shows the appearance of a new peak in the optical gap, which we attribute to the charge carrier plasmon. We find a dramatic increase for the value of the background dielectric constant ${\ensuremath{\epsilon}}_{\ensuremath{\infty}}$ upon doping. Our core level excitation data clearly signal filling of the conduction bands with electrons upon potassium addition.
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