Prof J Weaver, Dr P Dobson
Applications accepted all year round
Funded PhD Project (European/UK Students Only)
About the Project
Applications are invited for a four year fully funded CASE PhD studentship working with Prof. John Weaver and Dr. Phil Dobson in the School of Engineering, Glasgow University and Dr Alexandre Cuenat of the National Physical Laboratory, Teddington. The project is a collaborative research studentship between NPL and the EPSRC Centre for Doctoral Training in Intelligent Sensing and Measurement.
The performance of modern electronic and optical components is dominated by thermal effects. Modern devices make extensive use of nanostructuring to obtain greatly enhanced optical and electronic properties, but this structuring comes at a significant cost since it reduces the ability of the materials used to conduct away heat. Thermal conduction at the nanoscale is significantly different to that observed at macroscopic distances, being subject to acoustic boundary reflection effects, ballistic conduction, phonon-wavelength dependent scattering and quantized thermal conduction. Since the physics of nanoscale thermal transport is so profoundly different it is necessary to develop new techniques for its measurement.
Nanoscale thermal measurements are often made using “Scanning Thermal Microscopy”, a technique related to Atomic Force Microscopy (AFM) in which a thermal sensor is combined with a MEMS AFM sensor to give high resolution measurements of topography and temperature at the same time. This project is concerned with the development and validation of techniques to quantify thermal conduction at the nanoscale using custom AFM probes which have two tips, separated by a few hundred nanometres. The two tips will act as heaters and thermometers, allowing a measurement of the temperature rise from the flow of a known thermal power: Classically this would constitute a measurement of thermal conductivity. Technical objectives are the development of a measurement methodology, determination of the range of validity of the measurement and quantification of errors in measurement with reference to the characteristics of known bulk materials. The project will involve nanofabrication of the advanced sensors in the James Watt Nanofabrication Centre combined with the development of the associated instrumentation and measurement techniques.
This project offers the opportunity to work with world-leading centres of excellence in developing and applying the most accurate measurement standards, science and technology available and in lithography at the smallest length scales. The project will involve working for a substantial time both in Glasgow and Teddington on a project of intense scientific and industrial importance.
Entry requirements
Applicants must have a good first degree (2:1 or better) in an appropriate Physical Science or Engineering.
Funding of stipend and fees is available for UK and EU candidates.
Applications
A small number of places remain for 2016 entry. Please apply by submitting a CV with a covering letter as soon as possible to Prof Andy Harvey at [Email Address Removed].
Funding Notes
The EPSRC Industrial CASE scheme is described at https://www.epsrc.ac.uk/skills/students/coll/icase/intro/
The scheme allows for a 4 year PhD, with an enhanced stipend compared to a normal PhD. Funding to cover the costs of travelling to and from the company and any accommodation or subsistence costs for the student while on placement will be provided. The project would be suitable for a student having a First or upper second class honours degree in the areas of physics or electronic engineering, good practical skills and an interest in the industrial application of scientific research.
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