Citations:baryochemical


 * 1996 J. Cleymans et al, "Thermal hadron production in Si-Au collisions" arXiv
 * The most abundantly produced hadron species in $$Si\!-\!Au$$ collisions at the BNL-AGS (nucleons, pions, kaons, antikaons and hyperons) are shown to be in accord with emission from a thermal resonance gas source of temperature $$T\simeq 110$$ MeV and baryochemical potential $$\mu_B \simeq 540$$ MeV, corresponding to about 1/3 standard nuclear density.
 * 2009 Reinhard Stock et al, "Hadron Formation and the Phase Diagram of QCD Matter" arXiv
 * We investigate hadronic species freeze-out systematics in A+A collisions at low SPS energies, corresponding to a baryochemical potential above 300 MeV, analyzing NA49 hadron production data in the framework of the statistical hadronization model, and in the UrQMD hadronic transport model.
 * 2010 Tillmann Boeckel et al, "Strangeness in Astrophysics and Cosmology" arXiv
 * Finally, we discuss a novel scenario for the QCD phase transition in the early universe, which allows for a small inflationary period due to a pronounced first order phase transition at large baryochemical potential.