This thesis offers an excellent, comprehensive introduction to the physics of the quark–gluon plasma. It clearly explains the connection between theory and experiment, making the topic accessible to non-specialists in this field. The experimental work, which contributes significantly to our understanding of the quark–gluon plasma, is described in great detail. The results described in the final chapters of the thesis provide interesting new ideas about the connection between proton-proton and Pb-Pb collisions. Simone Schuchmann received the 'ALICE Thesis Award 2016' for this excellent work.
This thesis offers an excellent, comprehensive introduction to the physics of the quark–gluon plasma. It clearly explains the connection between theory and experiment, making the topic accessible to non-specialists in this field. The experimental work, which contributes significantly to our understanding of the quark–gluon plasma, is described in great detail. The results described in the final chapters of the thesis provide interesting new ideas about the connection between proton-proton and Pb-Pb collisions. Simone Schuchmann received the 'ALICE Thesis Award 2016' for this excellent work.
Nominated as an outstanding PhD thesis by CERN, Geneva Presents a comprehensive summary of the state of the art of the field Offers a detailed discussion of the different energy regimes in hadron collisions at the LHC Awarded the ALICE best thesis award 2016 Includes supplementary material: sn.pub/extras
Simone Schuchmann
Strangeness Production Heavy-ion Collisions Nuclear Modification Factor In-medium Energy Loss Jet Quenching Baryon-Meson Enhancement