Chiral phase transition and baryon number conservation
نویسنده
چکیده
In the standard R4 embedding of the chiral O(4) model in 3+1 dimensions the winding number is not conserved near the chiral phase transition and thus no longer can be identified with baryon number. In order to reestablish conserved baryon number in effective low-energy models near and above the critical temperature Tc it is argued that insisting in O(N) models on the angular nature of the chiral fields with fixed boundary conditions restores conservation of winding number. For N = 2 in 1+1 dimensions it is illustrated that as a consequence of the angular boundary conditions nontrivial solutions exist which would be unstable in R2; moving trajectories avoid crossing the origin; and time evolution of random configurations after a quench leads to quasistable soliton-antisoliton ensembles with net winding number fixed.
منابع مشابه
SI-TH-97-6, hep-ph/9712431 Chiral phase transition and baryon number conservation
In the standard R4 embedding of the chiral O(4) model in 3+1 dimensions the winding number is not conserved near the chiral phase transition and thus no longer can be identified with baryon number. In order to reestablish conserved baryon number in effective low-energy models near and above the critical temperature Tc it is argued that insisting in O(N) models on the angular nature of the chira...
متن کاملBaryon number conservation and the formation of disoriented chiral condensates
Conservation of baryon number as topological charge in effective chiral field theories imposes a local constraint on the time evolution of field configurations in the commonly used O(4) model. Possible consequences for the formation of chiral condensates after a quench from random initial configurations are discussed. It is argued that efficient dissipative terms are necessary but not sufficien...
متن کاملThe chiral symmetry restoration phase transition in baryon spectrum
It is shown that in the large Nc limit the light baryon spectrum exhibits the chiral restoration phase transition at high enough excitation energy. Such a phase transition is evidenced by the systematical parity doublets observed in the upper part of N and ∆ spectra. At low temperature and density the almost perfect SU(2)L × SU(2)R global chiral symmetry of the QCD Lagrangian in the u, d sector...
متن کامل1 The QCD Mixed Phase : Shaken , not Stirred
Baryon fluctuations exceeding Poisson expectations can signal a nearly first order phase transition at RHIC. We show how these fluctuations can be measured, and apply a dissipative-hydrodynamic formulation used in condensed matter physics to simulate their evolution. If the phase transition from quark matter to hadron gas is first order, matter at the appropriate temperatures and densities can ...
متن کاملColor Superconductivity and Chiral Symmetry Restoration at Nonzero Baryon Density and Temperature
We explore the phase diagram of strongly interacting matter as a function of temperature and baryon number density, using a class of models for two-flavor QCD in which the interaction between quarks is modelled by that induced by instantons. Our treatment allows us to investigate the possible simultaneous formation of condensates in the conventional quark–anti-quark channel (breaking chiral sym...
متن کامل