Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2011-03-02
Physics
High Energy Physics
High Energy Physics - Phenomenology
10 pages, 10 figures, discussion extended, new references added
Scientific paper
The main properties of magnetized strangelets, namely, their energy per baryon, radius and electric charge, are studied. Temperature effects are also taken into account in order to study their stability compared to the 56Fe isotope and non-magnetized strangelets using the liquid drop model. Massive quarks are considered with the aim to have a more realistic description for strangelets in the astrophysical context and the environment of heavy ion colliders, playing also an important role in the thermodynamical quantities of the quark gas. It is concluded that the presence of a magnetic field tends to stabilize more the strangelets, even when temperature effects are taken into account. Magnetized strangelets in a paired superconductor phase (magnetized color flavor locked phase) are also discussed. It is shown that they are more stable than ordinary magnetized strangelets for typical gap values of the order of O(100) MeV.
Felipe Ricardo Gonzalez
Fune Lopez E.
Martinez Andrea Preite
Paret Manreza D.
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