Dr Finn Stokes

 Position Ramsay Fellow
 Org Unit Physics
 Email finn.stokes@adelaide.edu.au
 Telephone 831 33428
 Location Floor/Room 114G ,  Physics ,   North Terrace

  • Biography/ Background

    Finn Stokes is a Ramsay fellow in the department of physics at 91自拍. As a member of the prestigious Budapest-Marseille-Wuppertal collaboration (BMWc), they work closely with collaborators in Germany, France and Hungary to perform world-leading simulations of Quantum Chromodynamics (QCD), the fundamental theory of the strong nuclear force.

    Finn is a former student of the UofA, and since completing their PhD in 2018 they have been working in Germany at the Jülich Supercomputing Centre. There they were a core member of the BMWc team that produced a computation that overturned our understanding of the magnetic moment of the muon in 2021. They have recently returned to Adelaide on a Ramsay Fellowship and are excited to engage undergraduate and graduate students in this cutting-edge research program.

    Finn is passionate about promoting equity and diversity in the sciences and is the co-chair of the international Lattice Diversity and Inclusion Committee.

     

  • Qualifications

    Doctor of Philosophy - The University of Adelaide (2018)
    B. Sc. (High Perf. Comp. Phys.) (Hons) - The University of Adelaide (2012)

  • Research Interests

    My current research focus is the muon magnetic moment, a quantity that has puzzled physicists for decades. A longstanding discrepancy between theoretical predictions and experimental measurements of this quantity hints at new physics beyond the standard model. In 2021 we used lattice QCD calculations on supercomputers to rule out most of the prevailing explanations, leaving only a few possibilities. My current research program aims to dramatically increase the precision of that calculation, and provide detailed insight into the origin of the disagreement. Ultimately the I hope to answer once and for all if the discrepancy indicates new physics, and what it must look like. This will guide ongoing national and international searches for new theories that will underpin the next generation of physics research.

    More broadly, I am driven to understand the nature of the strong nuclear force and the phenomena that arise from it. I have a particular interest in hadronic states and their interactions, and how these give rise to the resonances observed in experiment. In 2015 I developed the groundbreaking Parity Expanded Variational Analysis (PEVA) technique, allowing the clean isolation of baryon excited states in lattice QCD. This technique will be instrumental for future studies of baryon excited state structure, and has formed the foundation for an ongoing research program investigating these states at 91自拍 that I remain heavily involved with.

    I also have a keen interest in visualisations of lattice QCD, and the qualitative insight they can provide into the structure of the QCD vacuum.

     

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Entry last updated: Thursday, 19 Jun 2025

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