Aston Institute of Photonic Technologies
Location: Aston University Main Campus
Salary: £40,247 to £45,163 per annum
Grade: Grade 08
Contract Type: Fixed Term (36 months)
Basis: Full Time
Closing Date: 23.59 hours GMT on Saturday 30 November 2024
Interview Date: Monday 09 December 2024
Reference: 0597-24
Release Date: Tuesday 12 November 2024
A three-year Postdoctoral Research Fellowship is available in a collaborative H2020 project entitled “OPTIPATH – Adaptive OPTIcal metasurfaces for real-time, label-free and non-destructive multidimensional digital PATHology”. This research will be undertaken at the interface of the Quantum Bio-Photonics Group in the Aston Institute of Photonics Technologies and the Department of Mechatronics and Biomedical Engineering (MBE) in the College of Engineering and Physical Sciences, Aston University, UK.
This is a joint research programme capitalising on the knowledge and expertise of the 7 partners across Europe in modern photonics, biophotonics, and pathology. The primary objective of the project is to develop a non-destructive, label-free, real-time, 3D imaging technique for tissue samples, enabling live histopathological assessment during surgical and oncological treatments. This approach aims to provide a multidimensional pathology sensing paradigm by utilizing highly resolved and adaptive structured light with Orbital Angular Momentum, combined with 3D polarization and spectral information.
As the successful applicant, you will be responsible for conducting independent research focused on developing theoretical formalism and a Monte Carlo-based computational tool to simulate the propagation of complex structured light carrying Orbital Angular Momentum through turbid, tissue-like scattering media with complex internal structures. You will collaborate with other project partners to design and develop a histopathological 2D/3D tissue imaging system utilizing vectorial structured light and a confocal scanning system.
You will have a PhD and research experience in Monte Carlo modelling of light propagation in tissue-like scattering medium, structured light with Orbital Angular Momentum, polarization optics, and laser speckles.
The position will be based in the Aston Institute of Photonic Technologies and will report to Prof I. Meglinski.
For further information about this position, please contact Prof. I. Meglinski via email at i.meglinski@aston.ac.uk.
What we offer:
* Aston University is a vibrant campus located within Birmingham city centre, which has excellent transport links via bus or train.
* Excellent training and development opportunities.
* A generous annual leave scheme with 30 days bookable leave and a further 13 days of bank holiday and University closure days.
* Everyday discounts to a number of activities and retailers.
* Great family-friendly policies.
* On-site gym and pool with discounted staff membership available.
* Further information on our Benefits and Rewards can be found here.
Aston University is an equal opportunities employer and welcomes applications from all sections of the community. It promotes equality and diversity in all aspects of its work. We strive to have robust inclusivity strategies in place, including race and sexual orientation, to encourage colleagues to have the confidence and freedom to be themselves in the workplace. For more information, visit: https://www2.aston.ac.uk/about/inclusive-aston
We recognise the value of flexible working. Please contact the recruiting manager to discuss what flexible working options are available for particular roles.
If you require the job details document or an application form in an alternative format, please contact the recruitment team at recruitment@aston.ac.uk.
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