Greg Adkins |
Franklin & Marshall College |
Positronium: the quintessential QED bound state |
Andrzej Czarnecki |
University of Alberta |
Introduction to Non-relativistic QED Applications of NRQED |
Vladimir Dzuba |
UNSW Sydney |
Calculation of relativistic effects in many-electron atoms and ions |
Michael Eides |
University of Kentucky |
Effective Dirac equation and hyperfine splitting in muonium |
Savely Karshenboim |
Max Planck Institute of Quantum Optics, Ludwig-Maximilians-Universität München |
Different sectors of bound state QED |
Vladimir I. Korobov |
Joint Institute for Nuclear Research |
Variational method for the bound states in quantum mechanics NRQED approach for studying the hydrogen molecular ions and antiprotonic helium |
Krzysztof Pachucki |
University of Warsaw |
QED of H, He and H2: theoretical approach QED of H, He and H2: computational methods and results |
Vladimir A. Yerokhin |
St. Petersburg State Polytechnic University |
Calculations of QED effects to all orders in the binding nuclear field: electron self-energy |
Vladimir M. Shabaev |
St. Petersburg State University |
QED theory of high-Z few-electron ions |
Stefano Laporta |
University of Padua |
Calculations of higher-loop QED form factors and application to bound states |