Monty Clark
Research Associate,
Contact
Biography
I am a researcher currently focused on magnetic field control systems, and magnetic field shaping and optimisation. I conducted my PhD research into designing acoustic apertures to induce superoscillating phonons in isotropic and near isotropic solid media. I specialise in using mathematical, analytical and numerical methods to design simulations and experiments to investigate various phenomena.
Expertise Summary
Optimising magnetic fields via quasistatic target field and eigenfunction methods allows for the precise control of magnetic field shapes over a specified target region. This methodology can help refine and optimise magnetic shielding and control systems for a variety of high precision and high power applications.
Superoscillations are a wave phenomenon by which a local region of a bandlimited function oscillates faster than it's fastest Fourier component. This has applications in most sensing and imaging applications, as it can allow for superresolution, the ability to resolve details below the Rayleigh criterion for given wavelenghts and apertures.