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 it...
We demonstrate the control of enhanced chiral field distribution at the surface of hybrid metallo-di...
Nowadays, nanophotonics aims towards low-cost chip-scale devices that can tailor electromagnetic pro...
Nowadays, nanophotonics aims towards low-cost chip-scale devices that can tailor electromagnetic pro...
Semiconductor nanostructures hybridized with metals have been known to offer new opportunities in no...
We report on the extrinsic chirality behavior of GaAs-based NWs asymmetrically hybridized with Au. ...
We report on the extrinsic chirality behavior of GaAs-based NWs asymmetrically hybridized with Au. T...
Optical circular dichroism (CD) is an important phenomenon in nanophotonics, that addresses top leve...
Optical circular dichroism (CD) is an important phenomenon in nanophotonics, that addresses top leve...
Even non-chiral objects can exhibit effective optical chiral response due to particular symmetry bre...
Metal nanostructures supported on dielectric substrates have attracted great interest as building bl...
Metal nanostructures supported on dielectric substrates have attracted great interest as building bl...
Hybridization of semiconductor nanostructures with asymmetric metallic layers offers new paths to ci...
Hybridization of semiconductor nanostructures with asymmetric metallic layers offers new paths to ci...
Chiral optical response is an inherent property of molecules and nanostructures, which cannot be sup...
Chiral optical response is an inherent property of molecules and nanostructures, which cannot be sup...
We demonstrate the control of enhanced chiral field distribution at the surface of hybrid metallo-di...
Nowadays, nanophotonics aims towards low-cost chip-scale devices that can tailor electromagnetic pro...
Nowadays, nanophotonics aims towards low-cost chip-scale devices that can tailor electromagnetic pro...
Semiconductor nanostructures hybridized with metals have been known to offer new opportunities in no...
We report on the extrinsic chirality behavior of GaAs-based NWs asymmetrically hybridized with Au. ...
We report on the extrinsic chirality behavior of GaAs-based NWs asymmetrically hybridized with Au. T...
Optical circular dichroism (CD) is an important phenomenon in nanophotonics, that addresses top leve...
Optical circular dichroism (CD) is an important phenomenon in nanophotonics, that addresses top leve...
Even non-chiral objects can exhibit effective optical chiral response due to particular symmetry bre...
Metal nanostructures supported on dielectric substrates have attracted great interest as building bl...
Metal nanostructures supported on dielectric substrates have attracted great interest as building bl...
Hybridization of semiconductor nanostructures with asymmetric metallic layers offers new paths to ci...
Hybridization of semiconductor nanostructures with asymmetric metallic layers offers new paths to ci...
Chiral optical response is an inherent property of molecules and nanostructures, which cannot be sup...
Chiral optical response is an inherent property of molecules and nanostructures, which cannot be sup...
We demonstrate the control of enhanced chiral field distribution at the surface of hybrid metallo-di...
Nowadays, nanophotonics aims towards low-cost chip-scale devices that can tailor electromagnetic pro...
Nowadays, nanophotonics aims towards low-cost chip-scale devices that can tailor electromagnetic pro...
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