Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2004-07-17
Physics
High Energy Physics
High Energy Physics - Phenomenology
8 pages, 1 figure
Scientific paper
For a low-temperature expansion in QCD it is well-known that the Lagrangian of vacuum chiral perturbation theory can be applied. This is due to the fact that the thermal effects of the heavy modes are Boltzmann suppressed. The present work is concerned with the situation of higher temperatures, but still below the chiral transition. For a systematic approach it would be desirable to have a temperature modified chiral perturbation theory at hand which would yield a chiral power counting scheme. It is shown that this cannot be obtained. In principle, chiral perturbation theory emerges from QCD by (a) integrating out all degrees of freedom besides the Goldstone bosons and (b) expanding the obtained non-local action in terms of derivatives. It is shown that at finite temperature step (b) cannot be carried out due to non-analyticities appearing for vanishing four-momenta. Therefore one cannot obtain a local Lagrangian for the Goldstone boson fields with temperature modified coupling constants. The importance of the non-analyticities is estimated.
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