Anping Huang scite author profile

Recently, there has been significant interest in understanding the macroscopic quantum transport in a many-body system of chiral fermions. A natural framework for describing such a system that is generally out of equilibrium is the transport equation for its phase space distribution function. In this paper, we obtain a complete solution of the covariant chiral transport for massless fermions, by starting from the general Wigner function formalism and carrying out a complete and consistent semiclassical expansion up toÔðℏÞ order. In particular, we clarify certain subtle and confusing issues surrounding the Lorentz noninvariance and frame dependence associated with the three-dimensional chiral kinetic theory. We prove that such frame dependence is uniquely and completely fixed by an unambiguous definition of theÔðℏÞ correction to the distribution function in each reference frame.

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The BEST framework for the search for the QCD critical point and the chiral magnetic effect

Bluhm

et al. 2022

Nuclear Physics A

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Out-of-equilibrium chiral magnetic effect from chiral kinetic theory

et al. 2018

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Recently there has been significant interest in the macroscopic manifestation of chiral anomaly in many-body systems of chiral fermions. A notable example is the Chiral Magnetic Effect (CME). Enthusiastic efforts have been made to search for the CME in the quark-gluon plasma created in heavy ion collisions. A crucial challenge is that the extremely strong magnetic field in such collisions may last only for a brief moment and the CME current may have to occur at so early a stage that the quark-gluon matter is still far from thermal equilibrium. This thus requires modeling of the CME in an out-of-equilibrium setting. With the recently developed theoretical tool of chiral kinetic theory, we make a first phenomenological study of the CME-induced charge separation during the pre-thermal stage in heavy ion collisions. The effect is found to be very sensitive to the time dependence of the magnetic field and also influenced by the initial quark momentum spectrum as well as the relaxation time of the system evolution toward thermal equilibrium. Within the present approach, such pre-thermal charge separation is found to be modest.

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Solitonic modulation and Lifshitz point in an external magnetic field within Nambu–Jona-Lasinio model

Cao

Huang

2016

Phys. Rev. D

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We study the inhomogeneous solitonic modulation of a chiral condensate within the effective Nambu-JonaLasinio model when a constant external magnetic field is present. The self-consistent Pauli-Villars regularization scheme is adopted to manipulate the ultraviolet divergence encountered in the thermodynamic quantities. In order to determine the chiral restoration lines efficiently, a new kind of Ginzburg-Landau expansion approach is proposed here. At zero temperature, we find that both the upper and lower boundaries of the solitonic modulation oscillate with the magnetic field in the µ-B phase diagram which is actually the de Hass-van Alphan (dHvA) oscillation. It is very interesting to find out how the tricritical Lifshitz point (T L , µ L ) evolves with the magnetic field: There are also dHvA oscillations in the T L -B and µ L -B curves, though the tricritical temperature T L increases monotonically with the magnetic field.

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Anping Huang

Complete and consistent chiral transport from Wigner function formalism

The BEST framework for the search for the QCD critical point and the chiral magnetic effect

Out-of-equilibrium chiral magnetic effect from chiral kinetic theory

Solitonic modulation and Lifshitz point in an external magnetic field within Nambu–Jona-Lasinio model

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