Research Interests:
⦁ QCD and exclusive processes
⦁ generalized parton distributions
⦁ two-photon exchange processes
⦁ real and virtual Compton scattering processes
⦁ chiral symmetry predictions for electromagnetic processes spin structure of the nucleon, sum rules
⦁ photo and electroproduction as a probe of hadron structure
| 2008 – | Full Professor, University of Mainz |
| 2008 – | Adjunct Professor, College of William and Mary |
| 2003 – 2007 | Assistant Professor, College of William and Mary |
| 2003 – 2007 | Senior Staff Scientist, Jefferson Lab |
| 2000 – 2003 | Privatdozent, University of Mainz |
| 2000 | Habilitation, University of Mainz |
| 1998 – 2000 | Postdoc Institute for Nuclear Physics, University of Mainz |
| 1995 – 1998 | Postdoc, SPhN/DAPNIA, Saclay, France |
| 1995 | PhD, University of Gent, Belgium |
| K. Goeke, M.V. Polyakov and M. Vanderhaeghen, Hard exclusive reactions and the structure of hadrons, Prog. Part. Nucl. Phys. 47 (2001), 401-515, doi:10.1016/S0146-6410(01)00158-2 |
| C.F. Perdrisat, V. Punjabi and M. Vanderhaeghen, Nucleon Electromagnetic Form Factors, Prog. Part. Nucl. Phys. 59 (2007), 694-764, doi:10.1016/j.ppnp.2007.05.001 |
| I. Danilkin and M. Vanderhaeghen, Light-by-light scattering sum rules in light of new data, Phys. Rev. D 95 (2017) no.1, 014019, doi:10.1103/PhysRevD.95.014019 |
| H. Gao and M. Vanderhaeghen, The proton charge radius, Rev. Mod. Phys. 94 (2022) no.1, 015002, doi:10.1103/RevModPhys.94.015002 |
- Viktoriia Ermolina
- Niklas Keil
- Cornelis Mommers
- Aleksandr Pustyntsev
- M. Gorchtein
- H. Kwee
- T. Spitzenberg
- Y.C. Chen
- Julia Guttmann
- Tobias Beranek
- Vladyslav Pauk
- Oleksandr Tomalak
- Pablo Sanchez Puertas
- Nadiia Krupina
- Franziska Hagelstein
- Oleksii Gryniuk
- Matthias Heller
- Daniel Alberto Stanischesk Molnar
- Oleksandra Deineka
- Viacheslav Tsaran
- Volodymyr Biloshytskyi
-
Arbeitsgruppenseminar zur Theoretischen Kernphysik
Instructor: Univ.-Prof. Dr. Marc Vanderhaeghen -
Theoretische Physik 3, Quantenmechanik
Instructor: Univ.-Prof. Dr. Marc Vanderhaeghen
SoSe 2026
| WS 2024/25 | Theoretical Physics 5 – Advanced Quantum Mechanics |
| SS 2024 | Theoretical Elementary Particle Physics |
| WS 2023/24 | Theoretische Physik 3: Quantenmechanik |
| SS 2023 | Theoretical Physics 5: Advanced Quantum Physics |
| WS 2022/23 | Theoretische Physik 3: Quantenmechenik |
| SS 2022 | Theoretische Physik 6a: Relativistische Quantenfeldtheorie |
| WS 2021/22 | Theoretische Physik 5: Höhere Quantenmechanik |
| WS 2020/21 | Theoretische Physik 3: Quantenmechanik |
| SS 2020 | Theoretische Physik 6a: Relativistische Quantenfeldtheorie |
| WS 2019/20 | Theoretische Physik 5: Höhere Quantenmechanik |
| SS 2019 | Theoretische Physik 6a: Relativistische Quantenfeldtheorie |
| WS 2018/19 | Theoretical Elementary Particle Physics (QFT II) |
| SS 2018 | Theoretische Physik 3 – Quantenmechanik |
| WS 2017/18 | Theoretische Physik 6a, Relativistic Quantum Field Theory |
| SS 2017 | Theoretische Physik 3, Quantenmechanik |
| SS 2016 | Theoretische Physik 2, Elektrodynamik |
| WS 2015/16 | Theoretische Physik 1, Theoretische Mechanik |
| SS 2015 | Theoretische Elementarteilchenphysik (C) |
| WS 2014/15 | Theoretische Physik 6, Höhere Quantenmechanik und Quantenelektrodynamik |
| SS 2014 | Theoretische Physik 5, Klassische Feldtheorie |
| WS 2013/14 | Theoretische Physik 6, Höhere Quantenmechanik und Quantenfeldtheorie |
| SS 2013 | Theoretische Physik 6, Höhere Quantenmechanik und Quantenfeldtheorie |
| WS 2012/13 | Theoretische Physik 3, Quantenmechanik |
| WS 2011/12 | Mathematische Rechenmethoden 1 |
| SS 2011 | Quantenchromodynamik |
| WS 2010/2011 | Theoretische Physik 3, Quantenmechanik |
| SS 2010 | Quantenfeldtheorie 2 |
| WS 2009/2010 | Theoretische Physik 4, Elektrodynamik & klassische Feldtheorie |
| SS 2009 | Theoretische Physik 6, Höhere Quantenmechanik und -elektrodynamik |
| WS 2008/2009 | Theoretische Physik 3, Quantenmechanik |