Influence of nuclear thermometers and hot nuclei properties on nuclear temperature isospin effect measurement

“…If the Q shape value of the spectator satisfies -0.3 log 10 (Q shape ) 0.3, the spectator is a candidate that may be used to study thermodynamic properties. To use the spectator to study nuclear temperatures, the mass and neutronproton ratio requirement must also be met, because a large mass and neutron-proton ratio range will affect the nuclear temperatures isospin effects measurement [31]. To reduce the effects of mass and neutron-proton ratio on nuclear temperature measurement, the mass and neutron-protons ratio range of hot nuclei should be 185…”

Correlation between nuclear temperatures and symmetry energy in sub-saturation

“…If the Q shape value of the spectator satisfies -0.3 log 10 (Q shape ) 0.3, the spectator is a candidate that may be used to study thermodynamic properties. To use the spectator to study nuclear temperatures, the mass and neutronproton ratio requirement must also be met, because a large mass and neutron-proton ratio range will affect the nuclear temperatures isospin effects measurement [31]. To reduce the effects of mass and neutron-proton ratio on nuclear temperature measurement, the mass and neutron-protons ratio range of hot nuclei should be 185…”

Correlation between nuclear temperatures and symmetry energy in sub-saturation

Correlation between nuclear temperature and symmetry energy in subsaturation nuclear matter density

Studying sub-saturation density symmetry energy with different nuclear thermometers