Probing the momentum-dependent symmetry potential via nuclear collective flows

Wang, Xie; Zhu, Feng; Su, Jun; Zhang, Feng-Shou

doi:10.1103/physrevc.91.054609

Cited by 9 publications

(5 citation statements)

References 67 publications

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“…This is attributed to nucleons with a smaller effective mass experiencing a larger repulsive force (leading to a stronger elliptic flow) than those with a larger effective mass. This finding is consistent with results from the LQMD model and the microscopic stochastic mean-field (SMF) model, although different forms of momentum-dependent symmetry potentials were used [9, [53][54][55]. However, this is different from the results presented in Refs.…”

Section: Rapidity Dependencesupporting

confidence: 88%

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at E_lab= 0.09 ~ 1.5 GeV/nucleon *

Tong

et al. 2020

Chinese Phys. C

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By incorporating an isospin-dependent form of the momentum-dependent potential in the ultra-relativistic quantum molecular dynamics (UrQMD) model, we systematically investigate effects of the neutron-proton effective mass splitting = and the density-dependent nuclear symmetry energy on the elliptic flow in + collisions at beam energies from 0.09 to 1.5 GeV/nucleon. It is found that at higher beam energies ( 0.25 GeV nucleon) with the approximately 75 MeV difference in slopes of the two different , and the variation of ranging from –0.03 to 0.03 at saturation density with isospin asymmetry , the has a stronger influence on the difference in between neutrons and protons, i.e., , than has. Meanwhile, at lower beam energies ( 0.25 GeV nucleon), is sensitive to both the and the . Moreover, the influence of on is more evident with the parameters of this study when using the soft, rather than stiff, symmetry energy.

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Section: Rapidity Dependencesupporting

confidence: 88%

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at E_lab= 0.09 ~ 1.5 GeV/nucleon *

Tong

et al. 2020

Chinese Phys. C

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“…The angular brackets stand for the average over all events, and φ is the azimuth with respect to the reaction plane. The free protons are obtained by using a coalescence model, in which nucleons with relative momentum p 0 ≤ 300 MeV and relative distance r 0 ≤ 3.0 fm are coalesced into a cluster [38].…”

Section: Resultsmentioning

confidence: 99%

Effects of density- and momentum-dependent potentials in Au+Au collisions at intermediate energies

Wang

Zhang

2018

Chinese Phys. C

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“…Besides the momentum-dependence of the symmetry potential [16,[62][63][64][65][66], attention has to be paid to the recent observation of short-range correlations [67,68], leading to larger tails of the momentum distributions in symmetric matter than in pure neutron matter and to a reduction of the kinetic part in the parametrization of the symmetry energy [69][70][71]. It will be interesting to incorporate these correlations in transport models and to explore their consequences [72,73].…”

Section: Interpretation With Urqmdmentioning

confidence: 99%

Results of the ASY-EOS experiment at GSI: The symmetry energy at suprasaturation density

Russotto¹,

Gannon²,

Kupny³

et al. 2016

Phys. Rev. C

218

221

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Directed and elliptic flows of neutrons and light charged particles were measured for the reaction 197 Au+ 197 Au at 400 MeV/nucleon incident energy within the ASY-EOS experimental campaign at the GSI laboratory. The detection system consisted of the Large Area Neutron Detector LAND, combined with parts of the CHIMERA multidetector, of the ALADIN Time-of-flight Wall, and of the Washington-University Microball detector. The latter three arrays were used for the event characterization and reaction-plane reconstruction. In addition, an array of triple telescopes, KRATTA, 2 was used for complementary measurements of the isotopic composition and flows of light charged particles.From the comparison of the elliptic flow ratio of neutrons with respect to charged particles with UrQMD predictions, a value γ = 0.72 ± 0.19 is obtained for the power-law coefficient describing the density dependence of the potential part in the parametrization of the symmetry energy. It represents a new and more stringent constraint for the regime of supra-saturation density and confirms, with a considerably smaller uncertainty, the moderately soft to linear density dependence deduced from the earlier FOPI-LAND data. The densities probed are shown to reach beyond twice saturation.

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Probing the momentum-dependent symmetry potential via nuclear collective flows

Cited by 9 publications

References 67 publications

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at E_lab= 0.09 ~ 1.5 GeV/nucleon *

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at E_lab= 0.09 ~ 1.5 GeV/nucleon *

Effects of density- and momentum-dependent potentials in Au+Au collisions at intermediate energies

Results of the ASY-EOS experiment at GSI: The symmetry energy at suprasaturation density

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Probing the momentum-dependent symmetry potential via nuclear collective flows

Cited by 9 publications

References 67 publications

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at Elab= 0.09 ~ 1.5 GeV/nucleon *

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at Elab= 0.09 ~ 1.5 GeV/nucleon *

Effects of density- and momentum-dependent potentials in Au+Au collisions at intermediate energies

Results of the ASY-EOS experiment at GSI: The symmetry energy at suprasaturation density

Contact Info

Product

Resources

About

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at E_lab= 0.09 ~ 1.5 GeV/nucleon *

Nucleon effective mass splitting and density-dependent symmetry energy effects on elliptic flow in heavy ion collisions at E_lab= 0.09 ~ 1.5 GeV/nucleon *