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We address the issue of whether a region of disoriented chiral condensate (DCC), in which the chiral condensate has components along the pion directions, can form. We consider a system going through the chiral phase transition via a quench, in which relaxation of the high temperature phase to the low temperature one occurs rapidly (within a time scale of order 1 fm/c). We use a density matrix based formalism that takes both thermal and quantum fluctuations into account nonperturbatively to argue that if the O (4) linear model is the correct way to model the situation in QCD, then it is very unlikely, at least in the Hartree approximation, that a large (>10 fm) DCC region will form. Typical sizes of such regions are 1--2 fm and the density of pions in such regions is at most of order 0. 2/fm^3. We end with some speculations on how large DCC regions may be formed.
Boyanovsky et al. (Sun,) studied this question.
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