Speaker
Description
The influence of anisotropic momentum distribution and strangeness chemical potential on finite volume isospin asymmetric quark matter is investigated by using a three-flavored Polyakov quark meson model. The model incorporates quark condensates and vector fields to study the QCD phase transitions and susceptibilities of conserved charges in both anisotropic and isotropic quark mediums. A shift in the chiral critical endpoint (CEP) to lower values of quark chemical potential and higher temperatures is observed for increasing system size. Decreasing the strangeness chemical potential results in a shift of CEP to lower quark chemical potential and higher temperatures. The impact of anisotropic momentum distribution is examined through the anisotropy parameter, $\xi$. Additionally, including the Polyakov loop potential elucidates changes in the deconfinement transition line. This investigation provides insights into the intricate dynamics governing finite-size isospin asymmetric quark matter.
