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Dr. Noel Rutter

Research themes

Networks and Distribution:

My work within the Device Materials Group focuses on the fabrication,  modelling and microstructural and electromagnetic characterization of functional  thin-film materials, in particular superconducting wires and tapes.

Materials and Chemistry:

Research Interests

Functional Thin Films

My work within the Device Materials Group focuses on the fabrication, modelling and microstructural and electromagnetic characterization of functional thin-film materials, in particular superconducting wires and tapes.

Functional thin-film growth

We are interested in optimizing the growth parameters of thin films in order to optimize their functional properties. One example of this is the development of buffer layers and superconducting films for coated conductor tapes. A crucial factor in improving the performance of these materials is a firm understanding of how epitaxial growth occurs for different thin-film deposition methods.

Characterisation of superconductors

In order to be commercially viable, superconducting wires must be able to carry substantial currents in magnetic fields. We aim to understand how the microstructure of the superconducting layer in a coated conductor tape determines its maximum current. This is achieved by characterizing the microstructure of films using techniques such as XRD and EBSD in parallel with measurement of the electromagnetic properties of the tapes.

Modelling superconducting current flow

We aim to understand how the microscopic influence of grains and grain boundaries in superconductors determines the macroscopic properties of wires and tapes. We develop mesoscale network models in order to discover which properties are the most important in limiting the performance, depending on the conditions of temperature and magnetic field appropriate to the application. An understanding of the statistical variations of properties within these materials and of the dependence of such variations on processing is required in order to determine the most effective wire configuration.