PhD Studentship: Spatial Light Modulation for Advanced Terahertz (THz) Imaging

Collaborative EPSRC Doctoral Landscape Award

Qualification: Doctor of Philosophy in Engineering (PhD)

Eligibility: UK Students

Award value: Tuition fees and tax-free stipend - See advert for details

Deadline: 13 April 2026

Supervisors: Dr Nicholas Grant and Peter Anastasi 

Project description:

Terahertz imaging has the potential to transform sensing, inspection, and medical diagnostics, yet current systems remain too complex for widespread commercial use. This project aims to overcome these barriers by developing a high‑resolution spatial light modulator based on high‑aspect‑ratio silicon pillars. The PhD researcher will advance scalable wet‑etch fabrication methods to create next‑generation THz modulators with applications in security screening and early cancer detection.

Terahertz (THz) radiation is rapidly emerging as a transformative tool for imaging, non‑destructive testing, chemical sensing, and early‑stage cancer detection. However, current THz imaging systems rely on specialised, expensive, and complex equipment, limiting their widespread use. This PhD project aims to overcome these barriers by developing a new silicon‑based photo‑modulator capable of delivering faster imaging speeds and significantly higher spatial resolution.

The core concept is to exploit the photoconductive response of intrinsic silicon under illumination to modulate THz radiation for single‑pixel imaging. Achieving high‑resolution modulation requires preventing photo‑generated carriers from diffusing laterally—something made possible by fabricating high‑aspect‑ratio silicon pillars. Early feasibility work has demonstrated that such pillars can be produced using dry etching, but this approach is not scalable. This PhD will therefore explore wet chemical etching as a more cost‑effective, selective, and industry‑ready fabrication route, supported by Silson’s extensive expertise.

This project offers a unique opportunity to work at the intersection of semiconductor fabrication, photonics, and THz technology, contributing to the development of compact, high‑performance imaging systems (i.e. for security and medical applications).

Key Research Activities

1. Fabrication and Characterisation of Silicon Pillars:
2. Modelling and Simulation:
3. THz Modulation and Imaging Experiments:
4. Data Analysis and Design Optimisation:

Scholarship:

The award will cover the UK tuition fee level, plus a tax-free stipend, currently £21,805, paid at the prevailing UKRI rate for 3.5 years of full-time study. The award also includes a £5,000 research training support grant.

Eligibility:

Home students are eligible to apply. The candidate should have a strong 2.1 Bachelors, or Masters degree in Physics, Materials Science, Electrical Engineering, Photonics, or related disciplines. We welcome applicants with a background in one or more of the following areas:

• Semiconductor processing or microfabrication
• Computational modelling (COMSOL, MATLAB, or similar)
• Experience with optical/THz systems is beneficial but not essential

Curiosity, problem‑solving ability, and enthusiasm for hands‑on experimental work are highly valued.

How to apply:

Candidates should submit an expression of interest by sending a CV and supporting statement outlining their skills and interests in this research area to https://www.warwick.ac.uk/engineeringscholarships/ng_epsrc/app via the above 'Apply' button. If this initial application is successful, we will invite you to submit a formal application.

Candidates must fulfil the University of Warwick entry criteria and obtain an unconditional offer before commencing enrolment.

Should your application for admission be accepted, you should be aware that notification of acceptance for the PhD does not constitute an offer of financial support. Successful scholarship candidates will receive an official communication to confirm their award.

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