PhD Studentship in Physics

Institution: University of Nottingham – School of Physics & Astronomy
Location: UK
Reference: SCI3054
Closing Date: Thursday, 23 April 2026

Project Overview

This PhD project focuses on spin-polarised scanning probe microscopy to image, understand, and control magnetic order at the atomic scale in unconventional magnetic materials. Key areas include:

• Use of low-temperature STM and AFM to detect and map complex magnetic textures in emerging materials such as 2D magnets, altermagnets, and compensated spin-split systems.

• Investigation and manipulation of topological magnetic textures (vortices, merons, domain walls) at the atomic scale using controlled current, electric fields, and temperature modulation.

• Focus on altermagnetic materials, which break time-reversal symmetry while remaining magnetically compensated, with applications in superconductors, topological phases, and low-energy spintronic devices.

• Strong links with experimental nanoscience, magnetism, and spintronics, providing training in advanced experimental techniques, data analysis, and interdisciplinary problem-solving.

Research Goals and Impact

• Establish causal links between atomic-scale structure, symmetry breaking, and emergent magnetic topology.

• Explore mechanisms governing stability, dynamics, and defect interactions in altermagnetic materials.

• Produce high-impact publications and present at international conferences.

• Aligns with EPSRC strategic priorities: Advanced Materials, Quantum & Emergent Phenomena, Digital Futures.

• Contributes to long-term challenges such as low-energy information technologies and transformative material functionalities.

Candidate Requirements

• Background in Physics, Materials Science, or related disciplines.

• Interest in scanning probe microscopy, magnetism, spintronics, or condensed-matter physics.

• Willingness to work in an interdisciplinary research environment combining experiment, theory, and materials growth.

Application and Contact

• Contact: Dr. Brian Kiraly for further information and informal enquiries.

This studentship offers hands-on experience at the cutting edge of atomic-scale magnetism, with strong potential for both academic and industrial career paths.

In your application, please refer to Professorpositions.com