The CRC 1044 studies the role of hadron¬s, which are subatomic particles built up from quarks and gluons, within the broader context of particle physics, atomic phy-sics, and nuclear astrophysics. To answer physics questions at both the highest and low¬est energy scales, hadron physics plays a central and connecting role. In nearly all questions at the forefront of the mentioned research fields, the progress is limited by a missing quantitative knowledge of the strong interaction in the non-perturbative do¬main of Quantum Chromo Dynamics (QCD). On the one hand, advancing this low-en¬ergy frontier of the Standard Model has a direct impact on central questions in physics. On the other hand, precision measurement e.g. in atomic and particle physics lead to new insights on the structure of hadrons, as well as to the question how hadrons emerge out of their constituent quarks and gluons. In CRC 1044, we are in the position to fulfill these research goals by a strategic cooperation between the Mainz Microtron (MAMI), the Beijing Spectrometer BES-III, and the new Mainz Energy Recovering Superconducting Accelerator MESA, which will start taking data within the next four years. With its beam with a hitherto unrivaled intensity, it will allow for new measurements reaching from a search for light hypothetical particles, beyond the Standard Model of particle physics, till ultra-high precision measurements of the proton charge radius. Through a unique combination of measurements in electron scattering (MAMI and MESA), in electron-positron physics (BESIII), with state-of-the-art theoretical calculations, CRC 1044 will allow to decisively advance the low-energy frontier. The highlights of CRC 1044 are the most precise measurement worldwide of the weak mix¬ing angle in electron-proton scattering, as well as measurements and theoretical cal¬culations which will lead to an improved knowledge of the anomalous magnetic mo¬ment of the muon. A new measure¬ment campaign of nucleon form factors and polarizabilities, combined with more refined theoretical analyses, allows to importantly improve on the limiting fac¬tors in the interpretation of high precision tests of the Lamb shift in muonic atoms and to shed light on the proton radius puzzle. A photon-photon physics program, aimed at extracting me¬son transition form factors, allows to derive more precise constraints on the light-by-light hadronic contribution to the anomalous magnetic moment of the muon. Further¬more, studies of spectroscopy will allow for an interpretation of recently discovered new exotic mesons, composed of four quarks. Finally, measurements in nuclear systems allow to study the nuclear equation of state, addressing important questions in astrophysics, such as the detailed structure of neutron stars.

DFG Programme Collaborative Research Centres

International Connection Canada, USA

• 01 - Precision hadron physics: Muon (g-2) and the fine structure constant (Project Heads Denig, Achim ;  Wittig, Hartmut )
• 02 - The weak charge of the proton (Project Heads Aulenbacher, Kurt ;  Berger, Niklaus ;  Kumar, Krishna ;  Maas, Frank ;  Spiesberger, Hubert )
• 03 - Baryon form factors (Project Heads Maas, Frank ;  Merkel, Harald ;  Meyer, Ph.D., Harvey Byron ;  Vanderhaeghen, Marc )
• 04 - Polarizabilities (Project Heads Arends, Hans Jürgen ;  Hornidge, David ;  Ostrick, Michael ;  Pascalutsa, Ph.D., Vladimir ;  Sfienti, Concettina )
• 05 - Light hadron spectroscopy (Project Heads Fritsch, Miriam ;  Ostrick, Michael ;  Tiator, Lothar )
• 06 - Gamma-gamma physics and meson structure (Project Heads Denig, Achim ;  Vanderhaeghen, Marc )
• 07 - Meson dynamics (Project Heads Berger, Niklaus ;  Fritsch, Miriam ;  Gradl, Wolfgang ;  Ostrick, Michael ;  Scherer, Stefan )
• 08 - Interactions in nuclear systems (Project Heads Distler, Michael O. ;  Pochodzalla, Josef ;  Sfienti, Concettina )
• 09 - Central administration (Project Heads Denig, Achim ;  Vanderhaeghen, Marc )
• 09 - Theoretical nuclear physics from first principles (Project Head Bacca, Sonia )
• 09 - Central administration (Project Head Vanderhaeghen, Marc )

Applicant Institution Johannes Gutenberg-Universität Mainz

Participating Institution GSI Helmholtzzentrum für Schwerionenforschung GmbH
Helmholtz-Institut Mainz; Mount Allison University; Stony Brook University

Spokesperson Professor Dr. Marc Vanderhaeghen