Wednesday, February 27, 2013

1302.6510 (T. Kalaydzhyan)

Chiral Superfluidity for the Heavy Ion Collisions    [PDF]

T. Kalaydzhyan
We argue that the strongly coupled quark-gluon plasma formed at LHC and RHIC can be considered as a chiral superfluid. The "normal" component of the fluid is the thermalized matter in common sense, while the "superfluid" part consists of long wavelength (chiral) fermionic states moving independently. We use the bosonization procedure with a finite cut-off and obtain a dynamical axion-like field out of the chiral fermionic modes. Then we use relativistic hydrodynamics for macroscopic description of the effective theory obtained after the bosonization. Finally, solving the hydrodynamic equations in gradient expansion, we find that in the presence of external electromagnetic fields the motion of the "superfluid" component gives rise to the chiral magnetic, chiral electric and dipole wave effects. Latter two effects are specific for a two-component fluid, which provides us with crucial experimental tests of the model. By considering probe quarks one can show that the fermionic spectrum at the intermediate temperatures (T_c < T < 2 T_c) has a gap between near-zero modes and the bulk of the spectrum - one more hint supporting the two-component model.
View original: http://arxiv.org/abs/1302.6510

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