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Low-loss terahertz waveguides and devices for sensors and communication systems

  • Full or part time
  • Application Deadline
    Applications accepted all year round
  • Competition Funded PhD Project (Students Worldwide)
    Competition Funded PhD Project (Students Worldwide)

Project Description

Terahertz (THz) wave holds great promise for industrial and scientific applications in security screening, sensing, material characterisation, astronomy and communications. However, this part of the spectrum still hasn’t been extensively utilised, largely because of the immaturity of device and instrumentation technologies. One bottleneck is the high transmission losses in guided structures at THz resulting in generally low device efficiency. This has significantly restricted solid-state THz devices from realising their full potentials towards real world application. This PhD project aims to investigate and develop low-loss THz waveguide structures for guided transmission, passive devices and antennas, through innovative designs and the exploitation of new materials and fabrication techniques. The project will demonstrate a number of devices at 300 GHz and above. Design for manufacturing will be a major focus of the project. The research should foster the advancement of THz technologies, especially for those based on electronic approaches, towards commercial exploitation in sensors and communication systems.

The PhD student will primarily (i) analyse waveguide-based transmission media theoretically; (ii) design passive devices and antennas using full-wave simulation tools; (ii) experimentally verify the designs through measurement campaign. Other activities supporting the research will also be carried out when required. The PhD candidate is expected to develop the expertise to lead the research project and to interact with colleagues with different backgrounds and from different disciplines (i.e., electromagnetism, physics, material science).

The research programme will take place in Emerging Device Technology (EDT) research group ( from EESE Department and in close collaboration with Dr M. Navarro-Cía from the School of Physics and Astronomy. The group is specialised in developing new device technologies using advanced microwave design methods, new materials and manufacturing techniques.

Funding Notes

Applications are sought from highly motivated students graduating with first degree (2:1 or higher) in Electronic Engineering or Physics (and preferably a Master degree). Funding is awarded on a competitive basis.
UK/EU nationals: The funding will cover tuition fees and provide a stipend of around £14,500 per annum.
Non-EU Students: The funding will cover the tuition fees only. If you have the correct qualifications and access to your own funding to cover the living expense, you are welcome to apply.

How good is research at University of Birmingham in Electrical and Electronic Engineering, Metallurgy and Materials?
Electronic, Electrical and computer engineering

FTE Category A staff submitted: 26.20

Research output data provided by the Research Excellence Framework (REF)

Click here to see the results for all UK universities

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