The programme will span over 3 weeks.
During the first 2 weeks, we will address two topics per day among those listed below with 2 oral presentations per day.
During the third week, we will have a workshop aiming at summarising our discussions as well as touching upon connected topics.
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Energy loss of heavy quarks
Status and prospects of modeling and description of open heavy flavour and quarkonia production in medium
- What do open HF and high pt quarkonia measurements tell us ?
- Evaluation of the medium transport properties: status
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Coalescence and recombination in the medium
- Is there an onset of suppression ?
- Can other states help? : Bc, Upsilon…
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Benchmarking heavy flavour and quarkonium models to extract medium parameters
Coherent description of open heavy flavour and quarkonium modeling in medium to characterize the medium
- Model status
- Unifying constraints for open and hidden heavy flavour production
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Characterizing the initial state of the collision
Characterization of the initial state of the collision
- Photoproduction (UPC, PC) as a probe of nuclei structure;
- GPDs, PDF and TMDs;
- Saturation, non-linear effects and BFKL dynamics;
- Collectivity: do we understand its origin?
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Bridging the gap between small and large systems
Can particle production in small and large systems be described within a model ?
- Measurements as a function of charged-particle multiplicity (prospects, bias, limitation)
- Modeling the events from pp to AA.
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Production mechanisms in vacuum: data vs. theory uncertainties
Exploiting data to constrain model calculations
- cross sections, ratios, feed-down effects
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Fragmentation, coalescence and hadronization in vacuum
Understanding and modeling particle production in vacuum: fragmentation, coalescence and hadronization.
- Meson to baryon production in all systems
- Can other excited states help? X(3872)...
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New observables
Recent or new ideas and measurements
- associated particle production (DPS, TPS, correlations)
- jets (dead-cone, fragmentation, de-clustering)
