Y. H. Kim, Xuandong Zhao, Günter Schmid
Published 2010-10-28, updated 2011-02-07Version 3
We have carried out far-infrared (far-IR) transmission measurements on the ligand stabilized Au55 nanoparticles dispersed in Teflon at volume fractions ranging from 0.2% to 1%. Instead of a series of peaks which might arise from the electron transition between discrete energy levels, we have observed a broad far-IR absorption coefficient that follows with an onset at {\Delta} ~ 10 cm-1. Furthermore this frequency dependence is totally different from that of the expected absorption due to the induced electric dipole. The onset of the absorption reminiscent of an energy gap at ~ 10 cm-1 (~ 1. 2 meV) is surprisingly smaller than that of the expected for a metal sphere of 5.3 {\AA} in radius and independent of temperature. In this work we did not observe the level correlation effect on the far-IR absorption predicted for an ensemble of metal nanoparticles. It is concluded that Au55 nanoparticles behave like a three-dimensional (3D) semimetal with an energy gap {\Delta} ~ 10 cm-1 rather than a giant atom.
Comments: This paper has been withdrawn by the authors as they made more complete understanding of the issue, making the presented interpretation in the original manuscript erroneous
Factors influencing the energy gap in topological states of antiferromagnetic MnBi$_2$Te$_4$
Local investigation of the energy gap within the incompressible strip in the quantum Hall regime
Novel properties of graphene in the presence of energy gap: optics, transport and mobility studies
![QR code for arXiv:1010.5850 [cond-mat.mes-hall]](http://oss.arxitics.com/images/favicon.svg)