PhD Student in Quantum-Mechanical Simulations of Muons in …, Villigen

PhD Student in Quantum-Mechanical Simulations of Muons in Materials The Paul Scherrer Institute PSI is the largest research institute for natural and engineering sciences within Switzerland. We perform cutting‑edge research in the fields of future technologies, energy and climate, health innovation and fundamentals of nature. By performing fundamental and applied research, we work on sustainable solutions for major challenges facing society, science and economy. PSI is committed to the training of future generations. Therefore, about one quarter of our staff are post‑docs, post‑graduates or apprentices. Altogether, PSI employs 2,300 people.

Become part of Muoniverse This position is part of Muoniverse, a Swiss National Centre of Competence in Research (NCCR) dedicated to advancing muon science across particle physics, quantum materials, and applications ranging from energy research to cultural heritage.

Muoniverse brings together 30 research teams from universities, research institutions, and museums in a highly collaborative network, supported by the Muoniverse Research School, which coordinates training, exchanges, and career development for PhD students and postdocs.

Learn more at: we are looking for Muoniverse positions often serve as bridges between individual research groups and institutions, supported through dedicated measures. We are seeking candidates who thrive in such collaborative environments, enjoy connecting people and ideas across disciplines, and are comfortable working within networked structures. Your ability to contribute to a culture of openness and shared progress is as important as your technical expertise.

Muoniverse is committed to promoting equal opportunities and diversity in science. It actively works towards a diverse scientific community and an inclusive work environment.

Your tasks This project combines first‑principles simulations based on density functional theory (DFT) with the development of automated and reusable computational workflows for muon studies in materials. The goal of the project is to develop and apply advanced first‑principles methodologies to determine muon stopping sites and muon‑induced effects in materials, explicitly accounting for the quantum nature of the muon.

Building on state‑of‑the‑art DFT workflows for such simulations, you will extend existing approaches beyond classical treatments, incorporating quantum effects and modern data‑driven techniques. Starting with DFT‑based calculations of muon stopping sites and migration pathways, including nudged elastic band (NEB) calculations, you will explore quantum treatments of the muon using approaches such as path‑integral molecular dynamics (PIMD) and/or the stochastic self‑consistent harmonic approximation (SSCHA). You will further investigate the use of machine‑learned interatomic potentials (MLIPs) toefficiently capture muon–material interactions and enable simulations at an affordable computational cost.

Depending on interests and project evolution, you may also explore generative AI approaches to predict favourable muon stopping sites. Training and learning will be an integral part of the project, so we do not expect candidates to be experts in all these techniques at the start of the PhD.

A key component of the project is also the translation of these methods into robust, reusable, and user‑friendly workflows, enabling their adoption by the broader µSR and materials‑science communities. This includes contributing to and extending existing AiiDA‑based workflows and graphical interfaces (e.g. AiiDAlab Quantum ESPRESSO applications) for automated muon simulations and analysis.

Your profile We are looking for a highly motivated candidate with a background in computational materials science or condensed‑matter physics, and a keen interest in developing and applying advanced simulation methods and implementing them in workflows. You have experience working independently but also enjoy working in an interdisciplinary and collaborative environment, and are eager to combine methodological development with real scientific applications.

Requirements for candidates include:

Master’s degree (or close to completion) in physics, materials science, chemistry, engineering, or a closely related field

Hands‑on experience using density functional theory (DFT) for research or projects

Working knowledge of Python for scientific computing and data analysis

Comfortable communicating research ideas and results in English, both in writing and in conversation

Interest in quantum simulations, materials modelling, and/or developing new computational methods

You will be based at the Paul Scherrer Institute PSI in the Materials Software and Data group of Dr Giovanni Pizzi, and work in close collaboration with Prof. Dr. Titus Neupert at University of Zürich UZH, and Prof. Dr. Nicola Spaldin at ETH Zürich where you will be enrolled in the doctoral programme in Materials Science. The doctoral studies include coursework at ETH Zürich and may involve teaching duties. Results obtained during the PhD are expected to be published in peer‑reviewed journals and presented at international conferences.

We are convinced that our research team functions best when it is maximally diverse, and we particularly encourage applications from members of under‑represented groups.

We offer Our institution is based on an interdisciplinary, innovative and dynamic collaboration. You will profit from systematic training on the job, in addition to personal development possibilities and our pronounced vocational training culture. If you wish to optimally combine work and family life or other personal interests, we are able to support you with modern employment conditions and on‑site infrastructure.

For further information, please contact Dr Giovanni Pizzi, e‑mail .

Please submit your application online by 14 June 2026, including a one‑page cover letter summarizing your interest in the position and how your background prepares you for this role, your CV, transcript of records, and contact details for two referees for the position as a PhD Student in Quantum‑Mechanical Simulations of Muons in Materials (Index‑Nr. 7301‑07).

Paul Scherrer Institute, Human Resources Management, Serdal Varol, 5232 Villigen PSI, Switzerland



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