Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2011-01-27
Phys.Rev.D83:076005,2011
Physics
High Energy Physics
High Energy Physics - Phenomenology
18 pages, 5 figures. Comments and references added. Version accepted in Phys.Rev.D
Scientific paper
10.1103/PhysRevD.83.076005
We analyze quark condensates and chiral (scalar) susceptibilities including isospin breaking effects at finite temperature $T$. These include $m_u\neq m_d$ contributions as well as electromagnetic ($e\neq 0$) corrections, both treated in a consistent chiral lagrangian framework to leading order in SU(2) and SU(3) Chiral Perturbation Theory, so that our predictions are model independent. The chiral restoration temperature extracted from $<\bar q q>= <\bar u u + \bar d d >$ is almost unaffected, while the isospin breaking order parameter $<\bar u u - \bar d d >$ grows with $T$ for the three-flavour case SU(3). We derive a sum rule relating the condensate ratio $<\bar q q>(e\neq 0)/<\bar q q>(e=0)$ with the scalar susceptibility difference $\chi(T)-\chi(0)$, directly measurable on the lattice. This sum rule is useful also for estimating condensate errors in staggered lattice analysis. Keeping $m_u\neq m_d$ allows to obtain the connected and disconnected contributions to the susceptibility, even in the isospin limit, whose temperature, mass and isospin breaking dependence we analyze in detail. The disconnected part grows linearly, diverging in the chiral (infrared) limit as $T/M_\pi$, while the connected part shows a quadratic behaviour, infrared regular as $T^2/M_\eta^2$ and coming from $\pi^0\eta$ mixing terms. This smooth connected behaviour suggests that isospin breaking correlations are weaker than critical chiral ones near the transition temperature. We explore some consequences in connection with lattice data and their scaling properties, for which our present analysis for physical masses, i.e. beyond the chiral limit, provides a useful model-independent description for low and moderate temperatures.
Andres Torres R.
Nicola Angel Gomez
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