The School of Engineering of the University of Glasgow is seeking a highly motivated graduate to undertake an exciting 4-year PhD project entitled ‘ Quantum lidar ’ within the Electronics and Nanoscale Engineering Division.
The James Watt School of Engineering at the University of Glasgow has three fully paid PhD scholarships (university fees, student stipend and project consumables) available for three quantum technology projects to start in 2019 or 2020. The three projects are linked to the UK Quantum Technology Hubs for Sensors and Timing and QuantiC. Successful candidates will be trained to use the James Watt Nanofabrication Centre (http://www.jwnc.gla.ac.uk
), a 1500 m2 quasi-industrial cleanroom with over £35M of processing tools. The cleanroom has delivered technology to over 300 companies in 28 countries globally in the last 5 years, over 100 international universities including 49 in the Times Higher Education Top 100 International Universities list and is the only cleanroom delivering technology to all four UK Quantum Technology Hubs.
The projects will be supervised by Prof Douglas J Paul, an EPSRC Established Quantum Technology Fellow and Prof Marc Sorel, Professor of Optoelectronics. Glasgow has a long history in photonics with major research breakthroughs including the first 2D photonic bandgap devices in SOI, the first THz mode locked diode lasers, the first Ge on Si single photon avalanche detectors and the first entangled photonic qubits. Its spin out companies are now responsible for manufacturing over 5% of all the DFB lasers being deployed in datacentres globally. The University established in 1451 has been home to many notable scholars including James Watt, Joseph Black, Lord Kelvin, William Rankine, Rev Robert Stirling, Rev John Kerr, John Logie Baird, Frederick Soddy and Adam Smith.
Successful candidates are expected to have a first or upper second class degree from a reputable university in physics, electrical and electronic engineering or a suitably aligned degree. All the projects include the design, modelling, fabrication and characterisation of photonic devices and systems for quantum technology applications. The students will also be expected to fully engaged with the UK Quantum Technology Programme and Hubs including collaborative working and networking events with other UK universities, industry and government agencies.
Quantum lidar / rangefinder: Lidar and rangefinders are already used for automatic breaking systems on cars and are being pursued for navigating autonomous vehicles. Imaging through fog, rain, snow and other obscurants is difficult in the visible but far easier at longer wavelength due to the reduced scattering, lower solar blindness and increased atmospheric transparency. Glasgow has recently demonstrated world leading Ge on Si single photon avalanche detectors (SPADs) up to 1500 nm wavelength with up to 38% single photon detection efficiency (Nature Comms. 10, 1086 (2019)). This project aims to developed waveguide coupled Ge on Si SPADs predicted to have >70% efficiency integrated into an interferometer with Si microring entangle photon sources (Nature Comms. 6, 7948 (2015)) to enable chip scale quantum lidar / rangefinders to be produced and tested. The tested devices and systems will be validated by collaborators in the UK Quantum Technology Programme to maximise the impacts delivered from the project and to provide the student with strong academic and industrial networking experience.
Application for this scholarship is made by using the online system at the following link: https://www.gla.ac.uk/postgraduate/research/electronicsnanoscale/
Candidates applying for this Scholarship will most likely have an interview/discussion with the supervisor before any decision is made.