For the fabrication of superconducting devices based on nanostructured thin films, the quality of the starting surface is often of crucial importance. For example, the transport properties of superconducting nanobridges are strongly affected by the geometry and the edge definition of the nanostructures. In this work, we report about AFM characterization of magnesium diboride films and nanobridges fabricated in view of application in superconducting electronics. MgB2 films, obtained by co-deposition method followed by annealing in situ on silicon nitride substrate, have been nanostructured by electron beam lithography and ion milling. The analysis of the AFM images by the height-height correlation function shows that the films have a self-affine smooth textured surface with a RMS roughness of 20 nm. Furthermore, the nanobridges are continuous, with a well-defined geometry and a rounded profile, and the nanostructuration process does not significantly affect the film morphology.
AFM analysis of MgB2 films and nanostructures / Portesi, Chiara; Borini, S.; Picotto, Gianbartolo; Monticone, Eugenio. - In: SURFACE SCIENCE. - ISSN 0039-6028. - 601:1(2007), pp. 58-62. [10.1016/j.susc.2006.09.004]
AFM analysis of MgB2 films and nanostructures
PORTESI, CHIARA;PICOTTO, GIANBARTOLO;MONTICONE, EUGENIO
2007
Abstract
For the fabrication of superconducting devices based on nanostructured thin films, the quality of the starting surface is often of crucial importance. For example, the transport properties of superconducting nanobridges are strongly affected by the geometry and the edge definition of the nanostructures. In this work, we report about AFM characterization of magnesium diboride films and nanobridges fabricated in view of application in superconducting electronics. MgB2 films, obtained by co-deposition method followed by annealing in situ on silicon nitride substrate, have been nanostructured by electron beam lithography and ion milling. The analysis of the AFM images by the height-height correlation function shows that the films have a self-affine smooth textured surface with a RMS roughness of 20 nm. Furthermore, the nanobridges are continuous, with a well-defined geometry and a rounded profile, and the nanostructuration process does not significantly affect the film morphology.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.