Magnetotransport and structure of Ba(Fe $_{\mathrm{1-x}}$ Co$_{\mathrm{x}})_{2}$As$_{2}$ ultrathin films

Since the discovery of superconductivity in iron-based materials significant progress has been made in the fabrication of high quality bulk and thin film materials to explore their intrinsic properties and evaluate novel device applications. For both pathways, the best crystalline quality and optimal superconducting properties are required. Here Co-doped Ba-122 thin films grown on various substrates and thicknesses down to 6 nm, have been investigated. Crystal structure analysis was used to investigate the Fe-As-Fe bond angle and the Fe-As distance, and magnetotransport measurements were used to evaluate the electronic characteristics of the thin films. In particular, we observe an anomalous Hall effect that depends on temperature and film thickness. Success in very thin film fabrication involving pnictides will serve to spur progress in heterostructured systems exhibiting novel interfacial phenomena and device applications.