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- Tasks: Engineer superconducting qubits for cutting-edge quantum computers using advanced materials science.
- Company: Join the University of Southampton's EPSRC Centre for Doctoral Training in Quantum Technology Engineering.
- Benefits: Receive a £31k stipend, extensive training, and opportunities for personal and professional growth.
- Why this job: Make a real impact in the future of quantum technology while developing your skills.
- Qualifications: Must have a UK 2:1 honours degree or international equivalent.
- Other info: Flexible study options available; commitment to diversity and sustainability.
The predicted salary is between 31000 - 31000 £ per year.
This project, within the EPSRC Centre for Doctoral Training in Quantum Technology Engineering at the University of Southampton, carries a UKRI TechExpert enhanced annual stipend around £31k for UK students. While researching the project outlined below you will also receive substantial training in scientific, technical, and commercial skills.
Superconducting qubits power today’s quantum computers, yet their fragile performance is limited by tiny material flaws. This project engineers the atomic-scale microstructure of Josephson junctions—optimising grain orientation, stress, and interfaces—for longer-lived, reproducible qubits. Students will combine advanced thin-film growth, microscopy, and cryogenic testing to engineer “perfect” quantum hardware.
Superconducting qubits underpin today’s most advanced quantum computers, yet their performance is limited by material imperfections at the heart of their nonlinear element — the Josephson junction (JJ). Presently, most transmon qubits use Al/AlOx/Al junctions fabricated by double-angle shadow evaporation. While effective at the nanoscale, this approach faces critical challenges of qubit lifetime, inhomogeneous broadening from fabrication and precise interface control at the nanoscale.
The UK National Quantum Strategy highlights materials and fabrication science as critical to achieving reproducible, manufacturable qubits. There is an urgent need to bring a materials-engineering approach — grain orientation, stress relaxation, micro-texture, interface bonding — to the superconducting JJ stack. This project aims to systematically engineer and optimise the multilayer materials microstructure of Josephson junctions for superconducting qubits, achieving low lifetime variation, controlled texture, reproducible critical current, and compatibility with scalable manufacturing processes.
Research objectives include:
- Thin Film Nanostructure Control: Study Al, Nb, and NbN thin films; deposition rate, substrate temperature, and post-deposition annealing to tune grain size, orientation, nanoscale texture, and residual stress.
- Barrier and Interface Engineering: Compare native thermal AlOx vs plasma vs Atomic Layer Deposition (ALD) Al₂O₃ and explore epitaxial oxide barriers; characterise interfacial bonding, stoichiometry, and roughness.
- Device-Level Validation: Fabricate test JJ arrays, resonators, and transmons; correlate qubit metrics (T₁, T₂, Ic spread) with measured microstructure and interface chemistry.
- Design Rules and Process Map: Build deposition–microstructure–performance correlations to guide reproducible, scalable JJ fabrication.
Entry Requirements: Undergraduate degree (at least UK 2:1 honours degree, or international equivalent).
Closing Date: 31 July 2026. International applicants must apply before 31 March 2026.
How to Apply: Please apply via the online portal and select: Programme type: Research Academic year: 2026/27 Full time or part time Faculty: Engineering and Physical Sciences Search for programme PhD Quantum Tech Eng. Please add the name of the supervisor in section 2 of the application. Applications should include your CV (resumé), 2 academic references, Degree transcripts/certificates to date, English language qualification (if applicable).
We are committed to promoting equality, diversity, and inclusivity and give full consideration to applicants seeking part-time study. The University of Southampton takes personal circumstances into account, has onsite childcare facilities, is committed to sustainability and has been awarded the Platinum EcoAward.
Engineering perfect superconducting qubits in Southampton employer: FindAPhD
Contact Detail:
FindAPhD Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Engineering perfect superconducting qubits in Southampton
✨Tip Number 1
Network like a pro! Reach out to current students or alumni from the programme. They can give you insider tips on what the supervisors are looking for and how to stand out in your application.
✨Tip Number 2
Get familiar with the research! Dive deep into the project description and understand the key challenges. This will help you tailor your discussions during interviews and show that you're genuinely interested.
✨Tip Number 3
Practice makes perfect! Prepare for potential interview questions by doing mock interviews with friends or mentors. Focus on articulating your passion for quantum technology and your relevant skills.
✨Tip Number 4
Apply through our website! It’s the best way to ensure your application gets the attention it deserves. Plus, you’ll find all the necessary details and updates about the programme there.
We think you need these skills to ace Engineering perfect superconducting qubits in Southampton
Some tips for your application 🫡
Tailor Your CV: Make sure your CV is tailored to highlight your relevant skills and experiences for the project. Focus on any research or technical skills that align with superconducting qubits and materials engineering.
Get Your References Ready: Reach out to your academic references early! Let them know about your application and the specific project you're applying for, so they can provide a strong recommendation that aligns with our focus on quantum technology.
Showcase Your Passion: In your application, don’t just list your qualifications—show us your enthusiasm for quantum technology and superconducting qubits. Share any projects or experiences that sparked your interest in this field!
Follow the Application Process: Make sure to apply through our online portal as specified. Double-check that you’ve included all required documents, like your CV, transcripts, and references, to ensure a smooth application process.
How to prepare for a job interview at FindAPhD
✨Know Your Stuff
Make sure you brush up on superconducting qubits and the specifics of Josephson junctions. Familiarise yourself with the latest research and techniques in thin-film growth and interface engineering. This will show your passion and understanding of the field.
✨Prepare Questions
Think of insightful questions to ask your interviewers, Dr Dikai Guan and Dr Bruce Ou. This could be about their current research or the project’s objectives. It demonstrates your interest and helps you gauge if the project aligns with your goals.
✨Showcase Your Skills
Be ready to discuss your technical skills and any relevant experience you have, especially in areas like microscopy or cryogenic testing. Use specific examples from your past work or studies to illustrate how you can contribute to the project.
✨Practice Makes Perfect
Conduct mock interviews with friends or mentors to get comfortable with the format. Focus on articulating your thoughts clearly and confidently, especially when discussing complex topics related to quantum technology and materials science.
