Back to Search Start Over

Constraining nucleon effective masses with flow and stopping observables from the S$\pi$RIT experiment

Authors :
Tsang, C. Y.
Kurata-Nishimura, M.
Tsang, M. B.
Lynch, W. G.
Zhang, Y. X.
Barney, J.
Estee, J.
Jhang, G.
Wang, R.
Kaneko, M.
Lee, J. W.
Isobe, T.
Murakami, T.
Ahn, D. S.
Atar, L.
Aumann, T.
Baba, H.
Boretzky, K.
Brzychczyk, J.
Cerizza, G.
Chiga, N.
Fukuda, N.
Gasparic, I.
Hong, B.
Horvat, A.
Manfredi, J.
McIntosh, A. B.
Morfouace, P.
Nakamura, T.
Nakatsuka, N.
Nishimura, S.
Otsu, H.
Pawlowski, P.
Pelczar, K.
Rossi, D.
Sakurai, H.
Santamaria, C.
Sato, H.
Scheit, H.
Shane, R.
Shimizu, Y.
Simon, H.
Snoch, A.
Sochocka, A.
Sumikama, T.
Suzuki, H.
Suzuki, D.
Takeda, H.
Tangwancharoen, S.
Törnqvist, H.
Togano, Y.
Xiao, Z. G.
Yennello, S. J.
Zhang, Y.
collaboration, S$π$RIT
Publication Year :
2023

Abstract

Properties of the nuclear equation of state (EoS) can be probed by measuring the dynamical properties of nucleus-nucleus collisions. In this study, we present the directed flow ($v_1$), elliptic flow ($v_2$) and stopping (VarXZ) measured in fixed target Sn + Sn collisions at 270 AMeV with the S$\pi$RIT Time Projection Chamber. We perform Bayesian analyses in which EoS parameters are varied simultaneously within the Improved Quantum Molecular Dynamics-Skyrme (ImQMD-Sky) transport code to obtain a multivariate correlated constraint. The varied parameters include symmetry energy, $S_0$, and slope of the symmetry energy, $L$, at saturation density, isoscalar effective mass, $m_{s}^*/m_{N}$, isovector effective mass, $m_{v}^{*}/m_{N}$ and the in-medium cross-section enhancement factor $\eta$. We find that the flow and VarXZ observables are sensitive to the splitting of proton and neutron effective masses and the in-medium cross-section. Comparisons of ImQMD-Sky predictions to the S$\pi$RIT data suggest a narrow range of preferred values for $m_{s}^*/m_{N}$, $m_{v}^{*}/m_{N}$ and $\eta$.

Subjects

Subjects :
Nuclear Experiment
Nuclear Theory

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2312.06678
Document Type :
Working Paper
Full Text :
https://doi.org/10.1016/j.physletb.2024.138661