Unlocking "imprints" of conserved charges in the initial state of
heavy-ion collisions
Unlocking "imprints" of conserved charges in the initial state of
heavy-ion collisions
Hydrodynamic approaches to modeling relativistic high-energy heavy-ion collisions are based on the conservation of energy and momentum. However, the medium formed in these collisions also carries additional conserved quantities, including baryon number (B), strangeness (S), and electric charge (Q). In this Letter, we propose a new set of anisotropic flow …