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Using an atomic clock and an optical frequency comb as diagnostics, this project investigates laser stabilisation using an optical fibre interferometer for field deployable applications such as in space-based instruments.
This project has a strong industry focus and investigates using an array of interferometers for acoustic sensing. It relies on the ultra-sensitivity of these devices and the array's ability to triangulate the source of an acoustic signal to target a range of applications.
This project has a strong industrial link, and investigates using resonator optics to enhance the measurement sensitivity of the molecular absorption of light.
This project develops a 3D volumetric imaging system to generate three dimensional images of translucent materials. The project’s goal is to extend and augment the capabilities of existing optical projection tomography systems to address a wider spectrum of imaging needs.
This project develops fibre optic instruments based on optical interferometry and digital signal processing for the purpose of inertial navigation.
This project develops optical instruments for 3D imaging of biological and inorganic materials, using a multi-modal approach involving a combination of optical techniques.
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