PMO-15 - PIADS Centre for Doctoral Training PhD Studentships
PhD – Contract: Full Time/Fixed Term
We have 5 prestigious PIADS PhD positions available that will commence in September 2019. Students will join a vibrant and well-established Centre for Doctoral Training (CDT) hosted by IPIC (the Irish Photonics Integration Centre) in the Republic of Ireland (ROI), and in partnership with Queens University Belfast and the University of Glasgow. Graduating PIADS doctoral students are equipped with the high level scientific and engineering research skills needed to address the challenges of developing new integrated photonic technologies for diverse applications as well as with the entrepreneurial, leadership and teamwork capabilities needed to lead and operate at the highest levels in industry. The programme is a gateway to a vast array of career paths from data storage, semiconductors, telecommunications, biophotonics and medical technologies and more. CDT students can progress into a range of research and development, technical and management roles in industry or academia.
The ROI students will be based at one of the IPIC academic partners, including Tyndall National Institute, Cork Institute of Technology, Dublin City University, Trinity College Dublin and University College Cork, and will have access to an advanced structured training programme, to world class facilities and academic expertise that spans the partners above and University of Glasgow and Queen's University in Belfast. This includes a bespoke week long induction programme with students from all three partners, an annual Winter School and access to advanced training courses in areas such as semiconductor fabrication, packaging, biophotonics and entrepreneurship. In addition IPIC and PIADS have many industry partners that will open up research and career opportunities.
Students can apply to one of 5 Research Themes that include:
Monolithic and Heterogeneous Integration: ‘Printed photonics on anything’ - This Theme is developing a range of essential semiconductor material, device and integration technologies, with a key objective being to find new ways to combine photonics and electronics together on multiple substrates (silicon, ceramic, polymer etc.) with unprecedented simplicity and cost-effectiveness, using transfer printing.
Packaging and Hybrid Integration: ‘Breaking the packaging cost barrier’ - The high cost of photonic packaging, which can amount to as much as 80% of total product cost in some applications, has restricted the deployment of photonics to a relatively small number of mass and niche markets to date (albeit markets of enormous value). This Theme is developing optical and electrical wafer-scale assembly and packaging processes and low cost cooling technologies that aim to ‘break this cost barrier’.
Communications: ‘Coherent everywhere: migration of coherent communications to the network edge’ - The future real-time internet will require a converged wireless/optical edge cloud with unprecedented ability to dynamically reconfigure in the wavelength and time domain, in response to rapid and massive bandwidth fluctuations and latency-critical service demands. Coherent communications systems offer the potential to deliver this vision, but are currently orders of magnitude too expensive. This Theme is addressing the question: can we build an ultra-low cost coherent transceiver and, if so, how will this transform metro-scale access network design?
Biomedical: ‘World’s smallest integrated imaging system for guided surgery’ - Today, surgeons are seeking the ability to generate high quality, diagnostic images deep within the body using micro-scale instrumentation, such as endoscopes and arterial guidewires. This Theme is developing new innovations in micro-scale cameras and surgical platform integration technologies, multi-spectral diagnostic imaging and in-body optical powering and data transmission to address this need and deliver a number of world firsts.
Research Frontiers: this aspect of the programme is exploring emerging new areas of photonics and electronics research spanning from theory through materials, devices, integration and packaging to advanced systems that will shape the future of optical science and engineering.
An annual student stipend of €18,500 applies for this successful candidate for this position. Yearly University academic fees will paid by the Tyndall National Institute.
Step 1 - click here to download the Application form and indicate the Job Reference PMO-15.
Step 2 - return the completed Application form, together with your CV and motivation letter to firstname.lastname@example.org.
Please note that Garda vetting and/or an international police clearance check may form part of the selection process.
The University, at its discretion, may undertake to make an additional appointment(s) from this competition following the conclusion of the process.
At this time, Tyndall National Institute does not require the assistance of recruitment agencies.
Tyndall National Institute at University College, Cork is an Equal Opportunities Employer.