Journal
PHYSICAL REVIEW C
Volume 105, Issue 1, Pages -Publisher
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevC.105.014903
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Funding
- Feodor Lynen Program of the Alexan-der von Humboldt foundation
- U.S. Department of Energy, Office of Science, Office of Nuclear Physics [DE-AC02-05CH11231231]
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This paper introduces the SAM-2.0 method, which corrects the cumulants of a random number distribution within a subsystem by considering the effect of a conserved quantity. It is applicable to measurements of event-by-event fluctuations in heavy-ion collisions, bringing experimental measurements closer to theoretical calculations.
This paper introduces the subensemble acceptance method 2.0 (SAM-2.0)-a procedure to correct cumulants of a random number distribution inside a subsystem for the effect of exact global conservation of a conserved quantity to which this number is correlated, with applications to measurements of event-by-event fluctuations in heavy-ion collisions. The method expresses the corrected cumulants in terms of the cumulants inside and outside the subsystem that are not subject to the exact conservation. The derivation assumes that all probability distributions associated with the cumulants are peaked at the mean values but are otherwise of arbitrary shape. The formalism reduces to the original SAM [V. Vovchenko, O. Savchuk, R. V. Poberezhnyuk, M. I. Gorenstein, and V. Koch, Phys. Lett. B 811, 135868 (2020)] when applied to a coordinate space subvolume of a uniform thermal system. As the new method is restricted neither to the uniform systems nor to the coordinate space, it is applicable to fluctuations measured in heavy-ion collisions at various collision energies in different momentum space acceptances. The SAM-2.0 thus brings the experimental measurements and theoretical calculations of event-by-event fluctuations closer together, as the latter are typically performed without the account of exact global conservation.
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