New artificial superlattices: correlation between structural disorder and transport properties
Description
The development of thin film deposition techniques allowed the growth of new artificial materials leading to the discovery of new high Te superconducting compounds as infinite layer based superlattices [(BaCuO2)(m)/(CaCuo(2))(n)]). The order of the superlattice structure seems to be one of the crucial parameters to be improved so as to induce a superconductivity onset in these materials and to make them suitable for technological applications. In this paper we present a study on the correlation between structural disorder and transport properties of several artificial superlattices grown by pulsed laser ablation technique. Our goal was to simulate layered structure of copper oxide superconductors, so as to create new artificial superconducting materials and study charge transfer mechanism. We chose infinite layer phases (SrCuO2, CaCuO2, BaCuO2) for the blocks containing CuO2 planes and doped infinite layer phases (CaCu1-xScxOy, SrCu1-xScxOy, CaCu1-xAgxOy and SrCu1-xAgxOy, with x ranging from 0.1 to 0.2) for the charge reservoir blocks. By means of Reflection High Energy Electron Diffraction (RHEED) and S-rays structural characterization as well as resistivity and Hall effect measurements, we perform a comparative analysis of structural and transport properties of these samples and we tried to explain them in terms of Anderson's theory of disorder.
Additional details
- URL
- http://hdl.handle.net/11567/193149
- URN
- urn:oai:iris.unige.it:11567/193149
- Origin repository
- UNIGE