Chiral electric separation effect in the quark-gluon plasma

Abstract

In this paper we introduce and compute a new transport coefficient for the quark-gluon plasma (QGP) at very high temperature. This new coefficient σ e, the CESE (Chiral Electric Separation Effect) conductivity, quantifies the amount of axial current JA that is generated in response to an externally applied electric field e E: JA = σ e (e E). Starting with rather general argument in the kinetic theory framework, we show how a characteristic structure σ e μ μ5 emerges, which also indicates the CESE as an anomalous transport effect occurring only in a parity-odd environment with nonzero axial charge density μ5≠ 0. Using the Hard-Thermal-Loop framework the CESE conductivity for the QGP is found to be σ e = (\#) T Tr fQeQAg4(1/g) μμ5T2 to the leading-log accuracy with the numerical constant (#) depending on favor content, e.g. (#)=14.5163 for u,d light flavors.