Strongly interacting matter under rotation
Jiang, Yin; Lin, Zi-Wei; Huang, Xu-Guang; Liao, Jinfeng
The vorticity-driven effects are systematically studied in various aspects. With AMPT the distributions of vorticity has been investigated in heavy ion collisions with different collision parameters. Taking the rotational polarization effect into account a generic condensate suppression mechanism is discussed and quantitatively studied with NJL model. And in chiral restored phase the chiral vortical effects would generate a new collective mode, i.e. the chiral vortical wave. Using the rotating quark-gluon plasma in heavy ion collisions as a concrete example, we show the formation of induced flavor quadrupole in QGP and estimate the elliptic flow splitting effect for Λ baryons.
Jiang, Yin, & Lin, Zi-Wei, & Huang, Xu-Guang, & Liao, Jinfeng. (February 2018). Strongly interacting matter under rotation. EPJ Web of Conferences, (. Retrieved from http://hdl.handle.net/10342/7908
Jiang, Yin, and Lin, Zi-Wei, and Huang, Xu-Guang, and Liao, Jinfeng. "Strongly interacting matter under rotation". EPJ Web of Conferences. . (.), February 2018. September 23, 2020. http://hdl.handle.net/10342/7908.
Jiang, Yin and Lin, Zi-Wei and Huang, Xu-Guang and Liao, Jinfeng, "Strongly interacting matter under rotation," EPJ Web of Conferences 171, no. (February 2018), http://hdl.handle.net/10342/7908 (accessed September 23, 2020).
Jiang, Yin, Lin, Zi-Wei, Huang, Xu-Guang, Liao, Jinfeng. Strongly interacting matter under rotation. EPJ Web of Conferences. February 2018; 171() . http://hdl.handle.net/10342/7908. Accessed September 23, 2020.