Physics - Research - Working groups - HEP - Lehner
We investigate quantum physics at distances smaller than the diameter of a proton. We perform these studies using ab-initio methods built on relativistic quantum field theories.
Particle physics meets high-performance computing. We use the world's largest supercomputers to unlock the secrets of the subatomic world.
Research
My research group focuses on precision tests of the standard model of particle physics. Our work involves using both perturbative and non-perturbative methods based on lattice gauge theory to perform large-scale computations on leadership-class supercomputing facilities. We employ a variety of techniques, including classical numerical methods and machine learning. Additionally, we explore new computing paradigms such as quantum computing to address questions that were previously out of reach.
See latest publications here (external link, opens in a new window).
Lectures
Curriculum Vitae
Positions:
| Years | Position |
|---|---|
| 2019 - now | Professor, University of Regensburg |
| 2017 - 2022 | Scientist, BNL (tenured 2018) |
| 2015 - 2017 | Associate Scientist, BNL |
| 2013 - 2015 | Assistant Scientist, BNL |
| 2010 - 2013 | RIKEN FPR fellowship, BNL |
| 2010 | PhD, University of Regensburg |
Honors:
| Year | Award |
|---|---|
| 2016 | DOE Early Career Award |
| 2012 | Ken Wilson Lattice Award |
Community Service:
| Years | Service |
|---|---|
| 2018 - 2019 | Member of USQCD (external link, opens in a new window) Executive Committee |
| 2016 - now | Co-chair of Steering Committee of the "Theory Initiative (external link, opens in a new window) for the muon g-2" (external link, opens in a new window) |