"PhD Studentship: Long-distance Continuous Variable Quantum Key Distribution with Amplifiers and Memories"

Manchester Metropolitan University

Qualification Type:	PhD
Location:	Manchester
Funding for:	UK Students, EU Students, International Students
Funding amount:	£20,780 stipend plus £5,006 home tuition fees. Please refer to advert for further details.
Hours:	Full Time

Placed On:	27th November 2025
Closes:	27th February 2026
Reference:	SciEng-MG-2025-26-Quantum Key Distribution

Entanglement distribution is a foundational capability for quantum networks, enabling diverse quantum technologies including—but not limited to—quantum key distribution (QKD). QKD provides information-theoretic security even against quantum-capable adversaries, making it one of the most mature and commercially relevant applications of quantum communication.

However, current QKD links are limited to short distances. Overcoming this limitation requires quantum repeaters, which enable long-distance entanglement distribution and are therefore essential for building large-scale, secure quantum networks. Developing efficient, scalable, and physically realizable repeater-assisted architectures for entanglement distribution protocols remains a significant theoretical and practical challenge.

This PhD project will investigate optical quantum repeaters for long-distance secure QKD. You will develop theoretical frameworks to analyse repeater architectures, evaluating both amplifier-enhanced and memory-assisted protocols. Crucially, you will develop experiment-ready models that rigorously account for realistic device imperfections—bridging the gap between theory and practical implementation.

Project aims and objectives

• Develop a generalised theoretical framework for quantum repeater architectures
• Investigate and compare specific QKD protocols; Model realistic device imperfections by incorporating loss, noise, and other experimental constraints into the theoretical analysis
• Provide design guidelines for future experimental implementations of quantum repeater networks, specifying hardware requirements and performance benchmarks
• Contribute to the development of large-scale quantum communication infrastructure by identifying viable pathways for practical deployment of secure quantum networks.

Funding

Both Home and International students can apply. Only home tuition fees will be covered for the duration of the 3.5-year award, which is £5,006 for the year 2025/26. Eligible international students will need to make up the difference in tuition fee funding (Band 2 for the year 2025/26).

The student will receive a standard stipend payment for the duration of the award. These payments are set at a level determined by the UKRI, currently £20,780 for the academic year 2025/26.

Specific requirements of the candidate

• First or upper second class (2:1) honours degree from a UK university or an equivalent qualification (or be close to completing) in Physics, Electrical Engineering, Computer Science, or a related discipline.
• Strong analytical and problem-solving skills, and the ability to work independently and collaboratively.
• Strong analytical skills and motivation for independent research are essential.
• Knowledge of optics and communications is desirable.
• Knowledge of quantum optics and quantum communications is desirable.
• Familiarity with programming (MATLAB, Python, etc.) is desirable.

How to apply

Interested applicants should contact Dr Masoud Ghalaii (m.ghalaii@mmu.ac.uk) for an informal discussion.

To apply you will need to complete the online application form for a full time PhD in Computing & Digital Technology

Please complete the Doctoral Project Applicant Form, and include your CV and a covering letter to demonstrate how your skills and experience map to the aims and objectives of the project, the area of research and why you see this area as being of importance and interest*.

Please upload these documents in the supporting documents section of the University’s Admissions Portal.

Expected start date: October 2026