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Details of Grant 

EPSRC Reference: EP/I014004/1
Title: Magneto-Optic and Ellipsometric study of nanostructured media
Principal Investigator: Atkinson, Professor R
Other Investigators:
Pollard, Dr R
Researcher Co-Investigators:
Project Partners:
Department: Sch of Mathematics and Physics
Organisation: Queen's University of Belfast
Scheme: Standard Research
Starts: 03 January 2011 Ends: 02 January 2014 Value (£): 440,506
EPSRC Research Topic Classifications:
Magnetism/Magnetic Phenomena Materials Characterisation
Materials Synthesis & Growth
EPSRC Industrial Sector Classifications:
Electronics
Related Grants:
Panel History:
Panel DatePanel NameOutcome
02 Sep 2010 Physical Sciences - Materials Announced
Summary on Grant Application Form
The proposed research is concerned with the fabrication of structured arrays of nanoscale tubes and rods composed of ferromagnetic materials. These will be prepared by recently developed techniques using the in-filling of cylindrical pores created by the anodisation of thin, sputter-deposited aluminium films. The manufacturing technique has been developed considerably in Belfast and given rise to media with exciting new optical properties. The anisotropic optical properties of the arrays will be investigated using variable angle, spectroscopic ellipsometry and reflectance and transmittance photometry. The objective will be to attempt to characterise the optical properties in terms of their fundamental complex permittivity tensor. The magnetic properties will be examined in terms of their hysteresis behaviour and this will be followed by a comprehensive examination of their magneto-optical effects. In particular we will refurbish an existing Kerr polarimeter to enable fully automatic collection of both complex Kerr (reflection) and Faraday (transmission) effects. This will enable us to assess the potential of the media for suitable applications and provide basic data on the magneto-optic parameters. An attempt will be made to characterise the materials in terms of the complex Voigt parameter and its variation with wavelength over a wide spectral range. It is hoped that the array design parameters will give control over their optical properties in a way that may make them suitable for magneto-optic enhancement to generate extra-large Kerr effects that may lead to improved devices for optical isolators and for the production of arrays of ultra-fast magneto-optic switches for future 3D/HD displays of the type used in cinemas and other public displays.Fundamental to the success of this project will be the accompanying theoretical modelling of the optical and magneto-optical properties of the nanostructures and their assembly in planar arrays. Significant progress has been made in this regard using modified effective medium theories specifically adapted to take into consideration the anisotropic nature of the medium. These effective medium theories will be extended to take into account the magneto-optical activity of the magnetic component/s of the structures and it is hoped that we will have similar success in explaining the observable linear, first-order, magneto-optical effects. In addition, we will also make use of a commercial (Comsol) Multiphysics Modelling and simulation package for modelling optical properties that is based upon finite element analysis and which has already proved very useful. It remains to be seen if this can be extended to deal with magneto-optical properties.
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Organisation Website: http://www.qub.ac.uk