Ricerc@Sapienza

Hybridized nanostructures composed by metals and dielectrics, semiconductors or organics offer new
opportunities achieving new functionalities in nonlinear optics, plasmonics, sensing [1-4]. In particular GaAs-
AlGaAs-GaAs core-shell-supershell nanowires (NWs) fabricated by self-catalyzed growth on Si substrates werepartially covered with gold, thus producing a symmetry breaking in the sample geometry that induces an “extrinsic” chiral response.
The possibility to obtain optical activity with non-chiral elements was studied in the past [5], but only
recently reconsidered [6,7]. This phenomenon is obtained when the experimental configuration composed by both the non-chiral object and the optical incident field is non-superimposable on its mirror image [8-10].
Here we use the photo-acoustic technique with circular polarised light to put into evidence the different
absorption for circular polarizations of opposite headedness when the light impinges on such structures under a proper oblique angle [11], see Fig.1.
The investigated samples are formed by NWs which length is about 5 micron and 140nm in diameter. The measure circular dichroism gives the highest response at about 20° of incident light. The obtained results are encouraging and our current efforts are dedicated to the development of prototype chiral photodetectors based on such structures including pn-junctions for collecting the charge carriers