ECT* workshops | STRONG-2020
2024
- alpha_S(2024): Workshop on precision measurements of the strong coupling constant
- New jet quenching tools to explore equilibrium and non-equilibrium dynamics in heavy-ion collisions
- The physics of strongly interacting matter: neutron stars, cold atomic gases and related systems
- SPICE: Strange hadrons as a Precision tool for strongly InteraCting systEms
- Beyond-Eikonal Methods in High-Energy Scattering
- Diffraction and gluon saturation at the LHC and the EIC
- Synergies between LHC and EIC for quarkonium physics
2023
- Color Glass Condensate at the Electron-Ion Collider
- From first-principles QCD to experiments
- 2nd CMS Heavy Ion Workshop: Bringing together the LHC Heavy Ion Community
- Precision Tests of Fundamental Physics with Light Mesons
- Short-distance nuclear structure and PDFs
- ECT*-APCTP Joint Workshop: Exploring resonance structure with transition GPDs
- MICRA2023: Microphysics in Computational Relativistic Astrophysics
- Parton distribution functions at a crossroad
- Strongly interacting matter in extreme magnetic fields
- Critical stability of fewbody quantum systems
2022
The workshops supported by STRONG-2020 scheduled for 2022 have been held in hybrid mode due to the Covid-19 pandemic.
- Gauge Topology, Flux Tubes And Holographic Models: The Intricate Dynamics Of QCD In Vacuum And Extreme Environments
- Jet quenching in the quark-gluon plasma
- Neutron stars as multi-messenger laboratories for dense matter
- Nuclear physics at the edge of stability
- Advances on Giant Nuclear Monopole Excitations and Applications to Multi-messenger Astrophysics
- Radiative Corrections from medium to high energy experiments
- Neutron Electric Dipole Moment: from theory to experiment
- LFC22: Strong interactions from QCD to new strong dynamics at LHC and Future Colliders
- Revealing emergent mass through studies of hadron spectra and structure
- Giant and soft modes of excitation in nuclear structure and astrophysics
- Tomography of light nuclei at an EIC
- Key Reactions in Nuclear Astrophysics
In 2022 also the ECT* Doctoral Training Program has been supported by STRONG-2020.
2021
The workshops supported by STRONG-2020 scheduled for 2021 have been held in virtual mode or in hybrid mode due to the Covid-19 pandemic.
Virtual
- Mass In The Standard Model And Consequences Of Its Emergence
- Heavy-Flavor Transport In QCD Matter
- Heavy Ions And New Physics
- STRANU: Hot Topics In Strangeness Nuclear And Atomic Physics
- Saturation And Diffraction At The LHC And The EIC
- Relativistic Fermions In Flatland: Theory And Application
- LFC21: Strong Interactions From QCD To New Strong Dynamics At LHC And Future Colliders
- Tackling The Real-Time Challenge In Strongly Correlated Systems: Spectral Properties From Euclidean Path Integrals
Hybrid
- Machine Learning For High Energy Physics, On And Off The Lattice
- Exploring High-Mub Matter With Rare Probes
- Quark-Gluon Plasma Characterisation With Heavy Flavour Probes
2020
The workshops supported by STRONG-2020 scheduled for 2020 have been postponed to 2021 due to the Covid-19 pandemic or held in virtual mode.
2019
- Light clusters in nuclei and nuclear matter: Nuclear structure and decay, heavy ion collisions, and astrophysics
- LFC19: Strong dynamics for physics within and beyond the Standard Model at LHC and Future Colliders
- Diquark Correlations in Hadron Physics: Origin, Impact and Evidence
- Universal physics in Many-Body Quantum Systems – From Atoms to Quarks
- STRANEX: Recent progress and perspectives in STRANge EXotic atoms studies and related topics
- JPAC Collaboration Meeting