Author:
Jia Jiangyong,Giacalone Giuliano,Zhang Chunjian
Abstract
Valuable information on dynamics of expanding fluids can be inferred from the response of such systems to perturbations in their initial geometry. We apply this technique in high-energy 96Ru+96Ru and 96Zr+96Zr collisions to scrutinize the expansion dynamics of the quark-gluon plasma, where the initial geometry perturbations are sourced by the differences in deformations and radial profiles between 96Ru and 96Zr, and the collective response is captured by the change in anisotropic flow Vn
between the two collision systems. Using a transport model, we analyze how the nonlinear coupling between lower-order flow harmonics V
2 and V
3 to the higher-order flow harmonics V
4 and V
5, expected to scale as
V
4
NL
=
χ
4
V
2
2
and V
5NL = χ
5
V
2
V
3, gets modified as one moves from 96Ru+96Ru to 96Zr+96Zr systems. We find that these scaling relations are valid to high precision: variations of order 20% in V
4NL and V
5NL due to differences in quadrupole deformation, octupole deformation, and nuclear skin modify χ
4 and χ
5 by about 1–2%. Percent-level deviations are however larger than the expected experimental uncertainties and could be measured. Therefore, collisions of isobars with different nuclear structures are a unique tool to isolate subtle nonlinear effects in the expansion of the quark-gluon plasma that would be otherwise impossible to access in a single collision system.
Subject
General Physics and Astronomy
Cited by
9 articles.
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