Add to ORKG8 pages, 8 figuresIn ultrarelativistic heavy-ion experiments, one estimates the centrality of a collision using a single observable, say $n$, typically given by the transverse energy or the number of tracks observed in a dedicated detector. The correlation between $n$ and the impact parameter, $b$, of the collision is then inferred by fitting a specific model of the collision dynamics, such as the Glauber model, to experimental data. The goal of this paper is to assess precisely which information about $b$ can be extracted from data without any specific model of the collision. Under the sole assumption that the probability distribution of $n$ is Gaussian for a fixed $b$, we show that the probability distribution of impact parameter in a nar...
Centrality, as a geometrical property of the collision, is crucial for the physical interpretation o...
This publication describes the methods used to measure the centrality of inelastic Pb–Pb collisions ...
International audienceThe centrality determination for Au + Au collisions at 1.23A GeV, as measured ...
8 pages, 8 figuresIn ultrarelativistic heavy-ion experiments, one estimates the centrality of a coll...
International audienceIn proton-nucleus and nucleus-nucleus collision experiments, one determines th...
The nucleus-nucleus impact parameter and collision geometry of a heavy ion collision are typically c...
Uncertainties in heavy ion collision centrality measures relevant to the Relativistic Heavy Ion Coll...
The Glauber model provides insight into the initial state of nuclear collisions by treating them in ...
The evolution of matter created in a heavy-ion collision depends on its initial geometry. Experiment...
Abstract The centrality of heavy-ion collisions is directly related to the created me...
Centrality, as a geometrical property of the collision, is crucial for the physical interpretation o...
This publication describes the methods used to measure the centrality of inelastic Pb–Pb collisions ...
International audienceThe centrality determination for Au + Au collisions at 1.23A GeV, as measured ...
8 pages, 8 figuresIn ultrarelativistic heavy-ion experiments, one estimates the centrality of a coll...
International audienceIn proton-nucleus and nucleus-nucleus collision experiments, one determines th...
The nucleus-nucleus impact parameter and collision geometry of a heavy ion collision are typically c...
Uncertainties in heavy ion collision centrality measures relevant to the Relativistic Heavy Ion Coll...
The Glauber model provides insight into the initial state of nuclear collisions by treating them in ...
The evolution of matter created in a heavy-ion collision depends on its initial geometry. Experiment...
Abstract The centrality of heavy-ion collisions is directly related to the created me...
Centrality, as a geometrical property of the collision, is crucial for the physical interpretation o...
This publication describes the methods used to measure the centrality of inelastic Pb–Pb collisions ...
International audienceThe centrality determination for Au + Au collisions at 1.23A GeV, as measured ...