Periodic Reporting for period 1 - ResolvedJetsHIC (Probing the Strongly-Coupled Quark-Gluon Plasma with Jets)
Período documentado: 2015-11-01 hasta 2017-10-31
The project mainly launched a two-pronged theoretical investigation of quark-gluon dynamics in the context of nuclear collisions. One the one hand, we studied the impact of introducing strong-coupling effects into the sophisticated framework of kinetic theory by incorporating a modified gluon component. This introduces a mass-scale, ultimately related to gluon confinement, and breaks the conformal invariance of the system. We found a profound impact on the bulk viscosity of such a plasma which is strongly enhanced at temperatures that are relevant for collisions at the LHC.
On the other hand, we focused on exploring the production of highly energetic sprays of particles, so-called jets, that serve as important probes of the plasma. We improved on the theoretical foundations of in-medium jet fragmentation by computing the process of two-gluon emission. This gives the foundations for developing a theoretically well-motivated computer simulation, a so-called Monte Carlo shower algorithm, that can be tested against experimental data.
During the project period, we proposed to use jet substructure observables as new tools for extracting properties of the medium and learning about in-medium jet fragmentation. This generated a lot of interest both from the experimental side and in the wider high-energy physics community. These observables will also be very important in the future heavy-ion program at RHIC and LHC. In addition to the theoretical advances, a two-week CERN Theory Institute was organized that gathered more than 50 participants from all over the world discussing these new ideas and setting up a plan for future improvements and measurements.
The project also involved work within cosmology initiated at CERN, where we studied a novel way of achieving a rapid acceleration of the Universe by coupling the Standard Model to new particles.
In addition to the theoretical work, the PI has also actively engaged in disseminating the new results in the wider (high-energy) physics community through participation in international workshops and conferences (11 talks in total, including 3 plenary), seminars and colloquia (8 in total) and by giving lectures at international PhD schools (3 in total). Most importantly, he was the main organizer of a two-week CERN Theory Institute (combined with the 5th Heavy Ion Jet Workshop) in August 2017. The meeting is the first of its kind, where theorists and experimentalists work together on a final report outlining a novel strategy for future jet observables (to appear shortly). A follow-up workshop is planned for 2018 at CERN.
Finally, the PI has been active in the CERN outreach activities, delivering approximately 20 outreach talks for high-school students and teachers from Norway, Finland, Singapore and Thailand. He has also initiated a collaboration with published comic artist Håvard S. Johansen on a (web-)comic related to CERN activities in Norwegian (see enclosed example illustration).