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Main Authors: Nayak, Satya Ranjan, Das, Akash, Singh, B. K.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.11026
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author Nayak, Satya Ranjan
Das, Akash
Singh, B. K.
author_facet Nayak, Satya Ranjan
Das, Akash
Singh, B. K.
contents In this work, we have shown the two-particle correlations of charged hadrons in d-Au collisions at 200 GeV in PYTHIA8/Angantyr simulations. These correlations were studied at different multiplicities and pseudorapidity intervals. The two-particle correlations arise due to color reconnections, resonance decays, jet correlations, and hadronic rescattering. These correlations are inversely proportional to multiplicity but remain unaffected for larger pseudorapidity windows. We treated these correlations as distributions and calculated their skewness and kurtosis. The non-flow distributions deviate greatly from a Gaussian distribution and have high skewness and kurtosis. The ``true" elliptic flow distributions resemble Gaussian distributions; they have significantly lower skewness and kurtosis. We suggest that if the two-particle cumulant flow is treated as an event-by-event distribution, its skewness and kurtosis can be instrumental in distinguishing true flow and non-flow.
format Preprint
id arxiv_https___arxiv_org_abs_2507_11026
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Two-particle cumulant distribution: a simulation study of higher moments
Nayak, Satya Ranjan
Das, Akash
Singh, B. K.
High Energy Physics - Phenomenology
In this work, we have shown the two-particle correlations of charged hadrons in d-Au collisions at 200 GeV in PYTHIA8/Angantyr simulations. These correlations were studied at different multiplicities and pseudorapidity intervals. The two-particle correlations arise due to color reconnections, resonance decays, jet correlations, and hadronic rescattering. These correlations are inversely proportional to multiplicity but remain unaffected for larger pseudorapidity windows. We treated these correlations as distributions and calculated their skewness and kurtosis. The non-flow distributions deviate greatly from a Gaussian distribution and have high skewness and kurtosis. The ``true" elliptic flow distributions resemble Gaussian distributions; they have significantly lower skewness and kurtosis. We suggest that if the two-particle cumulant flow is treated as an event-by-event distribution, its skewness and kurtosis can be instrumental in distinguishing true flow and non-flow.
title Two-particle cumulant distribution: a simulation study of higher moments
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2507.11026