Day 1

Session 1: light nuclei including hypernuclei - role of few-body forces (9 am - 10:30 am)

Andreas Nogga - Chiral hyperon-nucleon interactions and light hypernuclei
Hermann Krebs - High precision nuclear forces within chiral EFT
Norbert Kaiser - Chiral four-nucleon interaction in nuclear matter

Session 2: XYZ-states (11 am - 12:30 pm)

Martin Cleven - Understandig the nature of the XYZ states
Max Jansen - Light quark mass dependence and finite volume effects for the X(3872) in an effective field theory
Qiang Zhao - Anomalous triangle singularity in the understanding of threshold phenomena

Session 3: Lattice QCD (2:30 pm - 4 pm)

Akaki Rusetsky - Optical potential on the lattice
Silas Beane - Status of baryon-baryon scattering from lattice QCD
Martin Savage - The Magnetic Structure of Light Nuclei from Lattice QCD''

Session 4: Lattice tools (4:30 pm - 6 pm)

Bing-Nan Lu - Precise determination of lattice phase shifts and mixing angles
Arseniy Filin - Low-energy theorems for NN scattering at unphysical pion masses

Day 2

Session 1: Different methods to treat heavier nuclei (9 am - 10:30 pm)

Robert Roth - Ab Initio Theory of Medium-Mass Nuclei
Jie Meng - Covariant Density Functional Theory for Nuclear Structure: current status
Shan-Gui Zhou - Multidimensionally-constrained covariant density functional theory and applications

Session 2: Halo-nuclei (11 am - 12:30 pm)

Hans-Werner Hammer - Universality and Halo Nuclei
Lucas Platter - Halo EFT and finite range contributions
Sebastian Koenig - Effective Theory of 3H and 3He

Session 3: [Lattice] EFT for nuclei (2:30 pm - 3:30 pm)

Serdar Elhatisari - Ab initio alpha-alpha scattering
Dean Lee - New Results in Lattice Effective Field Theory

Session 4: Hunting for physics beyond the SM with heavy nuclei (3:30 pm - 4 pm)

Jouni Suhonen - Studies of neutrino properties via weak nuclear processes

Session 4 (cont.): Hunting for physics beyond the SM with heavy nuclei (4:30 pm - 5 pm)

Achim Schwenk - Chiral effective field theory for dark matter direct detection

Day 3

Hadronic transitions form factors and (g-2)

Session 1: Towards a data driven analysis of hadronic-light-by-light scattering (9 am - 10:30 am)

Massimiliano Procura - Dispersion relation for hadronic light-by-light scattering
Bastian Kubis - Dispersive analysis of the pi^0 (and eta) transition form factor(s)
Chuwen Xiao - From e+e- -> eta pi pi to eta->gamma* gamma* using dispersion theory

Session 2: Various approaches to single- and double-off-shell form factors (11 am - 12 pm)

Christian Fischer - Hadronic contributions to (g-2)_\mu from Dyson-Schwinger equations
Pere Masjuan - Pseudoscalar transition form factors: muon g-2, pseudoscalar decays into lepton pairs, and eta -eta' mixing parameters

Session 3: Lattice QCD for hadronic contributions to (g-2) (12 - 1 pm)

Marcus Petschlies - Leading-order hadronic contributions to the lepton anomalous magnetic moments from the lattice
Balint Toth - Leading hadronic contribution to the muon g-2 from lattice QCD with staggered quarks

Session 4: non-perturbative extensions to the SM (2:30 pm - 4 pm)

Wouter Dekens - Constraining and disentangling CP violation beyond the SM
Roberto Frezzotti - Elementary particle masses: hierarchy and naturalness from non-perturbative dynamics
Francesco Sannino - Lattice's bright, dark and safe side

Discussion (4:30 pm - 6 pm)

Day 4

Hunting for physics beyond the SM

Session 1: nucleon and nuclear EDMs (9 am - 10:30 am)

Andreas Wirzba - Electric dipole moments of light ions
Andrea Shindler - Beyond the Standard model matrix elements with the gradient flow: the case of the nucleon electric dipole moment
Konstantin Ottnad - The neutron electric dipole moment from twisted mass lattice QCD

Session 2: CP violation in the charm and bottom sector (11 am - 12:30 pm)

Johanna Daub - A model-independent analysis of final-state interactions in $B^0_{d/s} \to J/\psi \pi \pi$
Javier Virto - Factorization properties of three-body B decays
Franz Niecknig - Dispersion-theoretical analysis of the D -> K pi pi Dalitz plot

Discussion (2:30 pm - 4 pm)