Fibre laser based mid infrared sources for healthcare applications

This project will involve the development of high-power short pulse fibre lasers operating at conventional near-IR wavelengths such as 1 and 2µm, and converting the wavelength of the output light to the mid-IR wavelengths using nonlinear optical effects in specially engineered crystals, and/or optical fibres.

As an integral part of the £6M Airguide Photonics EPSRC programme grant and a collaborative £5M EPSRC Healthcare Technologies grant, we will target both high-power laser operation providing a wide wavelength tuning range and a narrow spectral linewidth that can be used to probe individual cells with high-resolution and with molecular specificity, and broadband supercontinuum sources with ultrahigh spectral power densities that can be used to rapidly record the full absorption spectrum of biological samples without the need for laser tuning.

The project will create a world leading femto/pico-second pulsed fibre laser source as well as advanced nonlinear frequency conversion techniques, overcoming the technical challenges that are currently limiting progress in the field. You’ll combine experiments and simulations, and advance both our understanding of lasers and nonlinear optics, and applications of mid-IR laser in medical imaging. The finer details of the project can be aligned to suit the preferences of the successful candidate. You will emerge as a high-achieving young scientist ready to embark on a strong career in this rapidly growing field.

For candidates with industrial career aspirations, there are real opportunities to work closely with Trumpf, a major manufacturer of fibre lasers based in Southampton and a project partner on the grant, enabling experience to be gained of working with industry.